VHF 5000 System Workshop Manual

Transcription

VHF 5000 System
Workshop Manual
For a complete workshop manual for VHF 5000 System includes the following manuals:
B5006COM
B5022GB0
Operation Manual SB5006 Service Tool
Operation Manual RT5022 VHF / RT5020 VHF DSC Duplex
VHF 5000 System
How to use this manual
This workshop manual covers the SAILOR VHF 5000 Series. The manual contains all necessary documentation
to maintain, assemble and repair system components that are subject to be repaired according to the supported
service concept. The manual also contains all reference documentation to install, configure and operate a full
VHF 5000 Series system.
General
A VHF 5000 system is built around one of the following transceiver units:
•
•
SAILOR RT5022 VHF DSC, Class A Simplex/Semi-duplex transceiver
SAILOR RT5020 VHF DSC, Class A Duplex transceiver
The system is described in general terms. No detailed operations of the separate units. But the interconnections,
medias/protocols, supplies, antennas, etc. are described.
Disclaimer:
Any responsibility or liability for loss or damage in connection with the use of this product and the accompanying
documentation is disclaimed by Thrane & Thrane. The information in this manual is provided for information
purposes only, is subject to change without notice and may contain errors or inaccuracies.
Manuals issued by Thrane & Thrane are periodically revised and updated. Anyone relying on this information
should acquire the most current version e.g. from the Thrane & Thrane Extranet at http://extranet.thrane.com.
Thrane & Thrane is not responsible for the content or accuracy of any translations or reproductions, in whole
or in part, of this manual from any other source.
Doc. No.: W5022GB
1007
Issue: B/1007
VHF 5000 System
0930
VHF 5000 System
CONTENTS
1
1.1
1.2
1.3
1.4
Functional unit description ........................................................................................................ 1-1
The RT5022/RT5020 VHF transceiver ........................................................................................ 1-1
1.1.1
RF Board ....................................................................................................................... 1-2
1.1.2
BB Main Block ............................................................................................................... 1-4
1.1.3
Switch mode power supply ............................................................................................ 1-5
Interface descriptions .................................................................................................................... 1-6
The CU5000 remote control unit ................................................................................................... 1-7
The SB5006 service tool and the LB5007 LAN box ..................................................................... 1-8
2
2.1
2.2
2.3
Maintenance ................................................................................................................................ 2-1
Preventive maintenance ............................................................................................................... 2-1
Software updates .......................................................................................................................... 2-1
Service tool update ....................................................................................................................... 2-1
3
3.1
3.2
Functional unit workshop service ............................................................................................. 3-1
Necessary test equipment ............................................................................................................ 3-1
Servicing the RT5022/RT5020 VHF transceiver ........................................................................... 3-1
3.2.1
Software ......................................................................................................................... 3-1
3.2.2
Manuals ......................................................................................................................... 3-3
3.2.3
Service tool .................................................................................................................... 3-3
3.2.4
Service concept – RT502x VHF DSC main unit ............................................................ 3-3
3.2.5
Electrical Interconnection diagram ................................................................................ 3-4
3.2.6
Available spare parts ..................................................................................................... 3-5
3.2.7
Removing/installing the Cover of RT5022/RT5020 ....................................................... 3-6
3.2.8
Removing/installing the Base Control Unit from Base Unit ........................................... 3-7
3.2.9
Removing/installing the Duplex filter from the VHF transceiver unit ............................. 3-8
3.2.10 Removing/installing the SMPS from the VHF transceiver unit. ..................................... 3-9
3.2.11 Removing/installing the BB module from the VHF transceiver unit. .............................. 3-16
3.2.12 Removing/installing the RF module of the VHF transceiver unit. .................................. 3-18
3.2.13 Removing/installing the PA module of the VHF transceiver unit ................................... 3-20
3.2.14 Removing/installing the internal loudspeaker of the VHF .............................................. 3-22
3.2.15 Detailed fault finding ...................................................................................................... 3-23
Servicing the HS5001 transceiver handset ................................................................................... 3-42
3.3.1
Manuals ......................................................................................................................... 3-42
3.3.2
Service concept – HS5001 tranceiver handset ............................................................. 3-42
3.3.3
Mechanical assembly and disassembly ......................................................................... 3-43
3.3.4
Fault Finding (HS5001) .................................................................................................. 3-46
Servicing the CU5000 remote control unit .................................................................................... 3-46
3.4.1
Software ......................................................................................................................... 3-46
3.4.2
Manuals ......................................................................................................................... 3-46
3.4.3
Service tool .................................................................................................................... 3-46
3.4.4
Service concept – CU5000 Semi-functional Control Unit .............................................. 3-46
3.4.5
Fault Identifying tests (CU5000) .................................................................................... 3-47
Servicing the SB5006 service tool and LB5007 LAN box ............................................................. 3-49
3.5.1
Software ......................................................................................................................... 3-49
3.5.2
Manuals ......................................................................................................................... 3-49
3.5.3
Service concept ............................................................................................................. 3-49
3.5.4
Fault identifying tests (LB5007/SB5006) ....................................................................... 3-49
3.5.5
Common user faults ....................................................................................................... 3-51
Servicing the AP4365/AP5065 Alarm Panel ................................................................................. 3-52
Servicing the Matrix Printer ........................................................................................................... 3-52
3.7.1
Fault identifying tests (Printer) ....................................................................................... 3-52
3.3
3.4
3.5
3.6
3.7
4
4.1
4.2
1007
Feature sales ............................................................................................................................... 4-1
How to get the license key ............................................................................................................ 4-1
Available features ......................................................................................................................... 4-1
4.2.1
Scrambler ...................................................................................................................... 4-1
VHF 5000 System
5
5.1
5.2
5.3
5.2
Installation ................................................................................................................................... 5-1
Mounting possibilities .................................................................................................................... 5-1
Compass safe distance ................................................................................................................. 5-5
Interface connections .................................................................................................................... 5-6
5.3.1
System block diagram with connection box and 2 x extension box ............................... 5-7
Special installations ...................................................................................................................... 5-8
5.2.1
Flush mounting with Retrofit .......................................................................................... 5-8
5.2.2
Installing the Oki Microline Printer ................................................................................. 5-8
5.2.3
Installing other printers .................................................................................................. 5-8
5.2.4
Acquiring a printer server .............................................................................................. 5-8
5.2.5
Connecting the LB5007 LAN box .................................................................................. 5-11
5.2.6
Multiple unit equipment .................................................................................................. 5-11
5.2.7
External speakers for the transceiver or remote CU positions ...................................... 5-11
1007
VHF 5000 System
1
Functional unit description
This chapter will – in general terms - describe each of the functional units in a VHF 5000 series system.
1.1
The RT5022/RT5020 VHF transceiver
Should include short description of the default handset used.
Simplified
Blockdiagram
Key/Display
Rx/Tx
Antenna
RF - Section
RX Signal
TX Signal
BB - Section
Option
Non func. Handset
Semi func. Handset
I/O Control
DSC
Antenna
SMPS
10-32V DC
39013A
The VHF radio is a transceiver which means it consists of a transmitter and a receiver.
The radio has four main blocks
SMPS
Built-in Switch Mode Power Supply, which converts the input battery voltage to internal supplies for the radio.
It also separates the battery potential from the radio.
MKD
Keyboard and Display unit. All controls and indicators are placed on this unit.
BB
The Base Band unit controls all the functions of the radio.
RF
This unit is the basic radio module with receivers for voice and DSC communication as well as a transmitter and
synthesizers for channel settings.
0608
1-1
1.1.1
VHF 5000 System
RF Board
RF
Board
RX/TX
SW
LP
1/25
Watt
Tx AF from
DSP
Tx
Pwr
regulator
Pwr
det.
Buffer
Sw
PA
PLL
VCO
Synth.
Control
TX Lock
Det.
8V
TX
RX/TX
Rx
Telephony
BP
LNA
First
Mix
BP
IF1
Filter
45 MHz
IF1
AMP
Diplexer
LO1
201.025 207.025 MHz
2. IF System IC
2. Mixer IF AMP
Ceramic filters
Limiter 450KHz
LO2
Buffer
VCO
PLL
Rx AF to
DSP
44.55
MHz
Tripler
44.55MHz
Synth.
Control
RX Lock
Det.
VCO
TCXO
14.85MHz
PLL
Dubler
29.7MHz
Buffer
1LO 126.375
MHz
DSC
Antenna
BP
LNA
BP
First
Mix.
Rx
DSC
LO2 29.7MHz
3dB
Att.
IF1
AMP
IF1Filter
30.15MHz
2. IF System IC
2. Mixer IF AMP
Ceramic filters
Limiter 450KHz
DSC
AF
to
DSP
40342
1-2
0608
VHF 5000 System
The module is connected to two antennas. One for voice communications and one for DSC reception only.
Transmitter
The AF signal from the base band module is led directly as modulation signal to the transmitter VCO. This signal
is amplified in the power amplifier and led to the antenna through the RX/TX antenna shift relay.
Receivers
The DSC receiver is dedicated to listen to all communication on channel 70 independent of the main receiver.
The main receiver is listening on the channel selected by the user.
Both receivers are designed in the same way as a super heterodyne. In front it has a sturdy 1st mixer ensuring
good intermodulation and blocking immunity. The IF section is with no adjustable coils. In fact the receiver has
no adjustment at all.
The 2nd mixer and 2nd IF section ensures good selectivity. The IF frequency of 450 kHz is filtered and
demodulated to AF signal which is led to the Base Band for further handling.
Synthesizers
There are three synthesizer sections. One for each receiver and one for the transmitter.
The synthesizers are designed of the Phase Locked Loop principle and they are all locked to a temperature
stabilized reference frequency of 14.85 MHz.
Duplex
In duplex version the receivers and the transmitter are working simultaneously. The main receiver and the
transmitter frequency is separated by 4.6 MHz. Through a duplex relay the transmitter and the main receiver
is connected to a duplex filter ensuring good duplex performance.
This module is adjusted in full at the factory and should not be adjusted again.
0608
1-3
1.1.2
VHF 5000 System
BB Main Block
RX/TX
DSC
Base Band
Keyboard
Display
SPI
Power/
Detect.
DSC
Receiver
Synth. Control
Speaker
Flash
Memory
NMEA
GPS
Options
Duplex
filter
VDR
Control
AUX 1-2, DSC call, DSC alarm
SRAM
Memory
Synth. Control
Speaker
Temp
VHF
Receiver
Line out
SPI
SPI
Earpice
RTC
MCU
SPARC
RS485
CU
UART'S
Duplex
relay
Ant. Relay
MIC.
Rx/Tx Shift
LAN
Simplex/duplex
CODEC
Alarm
on/off
Handset
Earpice
UART
SPI
SPI
MCBSP
Ptt/Hook on/off
Synth.
Control/Tx Control
Transmitter
Internal
Speaker
Handset
MIC.
DSC_AF
SPI
Rx_AF
SDRAM
DSP
CODEC
MCBSP
Tx_AF
Super cap
Backup Memory & RTC
11V Reg.
11V
8V Reg.
8V
12V
Supply for RF
3.3V Reg.
3.3V
12.5V
10-32V
SMPS
5V Reg.
5V
12.5V
8V Reg.
8V
Supply for BB
3.3V
3.3V
1.26V Reg.
1.26V
40376A
Baseband module
1-4
1007
VHF 5000 System
The baseband module is attached to all modules in the radio and is in control of these modules as well as
peripheral interfaces. The baseband module has two main functionalities that are handled separately by a
microprocessor and a digital signal processor.
The microprocessor controls the mode of the radio based on input from the user interface and incoming DSC
messages. This includes display and keyboard control, configuration of the RF board for receiving and
transmitting on a specified channel, and composition and decoding of DSC messages.
The digital signal processor performs all audio signal processing and audio switching on the received and
transmitted signals. The FM demodulated signals from the main receiver and the watch receiver is fed into the
DSP where the following functions are located: FSK demodulation, ATIS demodulation, squelch, replay
buffering, de-scrambling, volume control, and general filtering. After processing of the RX signal the processed
signal is routed to the 2-channel audio power amplifier and external connectors for handset and control units.
The digital signal processor is responsible for generating and handling the relevant modulation signal for the
RF board. The modulations signal can consist of Voice, ATIS message, DSC message, or Scrambler data.
During voice transmission the DSP carries out compression, pre-filtering and optional scrambling of voice
signals from the microphone. During transmission of DSC and ATIS messages the DSP carries out the FSK
modulation. The modulation indexes related to the different modulation signals are adjusted internally in the
DSP.
Front Control Unit
The MKD module is connected to the baseband board through 4 interfaces determined for sending keyboard
data, receiving display data, controlling keyboard light, and connecting speaker. The baseband module solely
carries out the control of these interfaces.
1.1.3
Switch mode power supply
10-32V DC
from
battery
Input
filter
on/off
Transformer
and
switch stage
Rectifier
and
choke
Output
filter
On/Off circuit
and switch
controller
Error
amplifier and
opto-coupler
3.3V DC
converter
+12.5V DC
+3.3V DC
GND
40365
The input power plug with filter and fuse is an integrated part of the power supply and must not be replaced by
unauthorised parts. The fuse is accessible from the outside below the power input cable. The module is reverse
polarity protected by a diode.
ON/OFF function
This power supply has a special function which means that if the battery connection to the radio accidentally
is interrupted for a few minutes, the radio will switch on again by it self when power is back. However, this function
is only valid if the radio has been switched on for a while and if the break is shorter than a few minutes.
Power converters
The main power converter is based on a push-pull principle and converts the battery voltage (10-32VDC) into
12.5VDC for the PA and internal supplies. A 3.3V DC converter works from the 12.5V to generate the 3.3V supply
for the Base Band module.
0608
1-5
VHF 5000 System
SMPS module with reverse
polarity protection diode
Input power plug with
fuse
40366
1.2
Interface descriptions
Relays in option connector
Alarm
outputs
+12.5V
AUX2
+12.5V
AUX1
Pin 3 AUX2
Pin 4 AUX2 NO
Pin 5 AUX1
Pin 6 AUX1 NO
Pin 9 DSC Call
Pin 10 DSC Call NO
Pin 14 DSC Alarm
Pin 15 DSC Alarm NO
+12.5V
CPU Network
DSC Call
+12.5V
DSC Alarm
OPTION plug
Base Band
40363
GPS / NMEA input
NMEA interface
Base Band
Pin 12 NMEA+
Pin 13 NMEA-
OPTION plug
40364
1-6
0608
VHF 5000 System
Handset Unit
Earpiece
Cable f. Handset
PTT Hook off
Microphone
40340
The default handset is of a non intelligent type consisting of an electret microphone and an earpiece and a PTT
key. All built in a sturdy housing. In the housing is also placed a reed switch and together with a strong magnet
in the cradle, it forms a hook-off function.
The handset used together with the remote control unit CU5000 is waterproof.
1.3
The CU5000 remote control unit
Should also include short description of the handset used.
Audio PA
to External
Laudspeaker
Att.1
Int.
Loudspeaker
Att.2
Sparc-II
Handset
earpiece
Hook off
RS
485
PTT
KEYBOARD
CPU
DISPLAY
Handset
Microphone
40341
0608
1-7
1.4
VHF 5000 System
The SB5006 service tool and the LB5007 LAN box
RS485
SparcII data
from VHF
Sub-D
LAN/Service
interface
Up
MAC/PHY
Ethernet
converter
Memory
12.5V to 5V
and 3.3V
converter
RJ45
Ethernet to PC
40368
Principle of operation
LAN/Service box
The unit converts the data from the Sparcbus to Ethernet data.
The same unit is used for two applications. The LAN box is for fixed installation for connection to a printer and/
or a PC.
The service box is the same unit but only used by service personal for configuration and service purpose of the
VHF.
1-8
0608
VHF 5000 System
2
Maintenance
Maintenance
If the VHF 5000 system has been installed properly the maintenance can, depending on the environments and
working hours, be reduced to performance check at intervals, not exceeding 12 months.
2.1
Preventive maintenance
On a regular basis the following steps should be performed:
•
•
•
•
•
•
•
•
Check the vessels power supply is within the specified limits
Check conditions of the aireals
Check the antenna installation, ground connection and cables in general
Keep antenna feed-through insulators clean and dry
Check the equipment mount is fixed and that cooling conditions are acceptable to the equipment.
Perform a functional test of all active units in the system.
Use the self test built into the radio for verification of optimal operator conditions
Run the self test, build into the VHF.
Inspection of the antennas, cables, and plugs for mechanical defects, salt deposits, corrosion, shall be done at
regular intervals not exceeding 12 months.
2.2
Software updates
A service message will be sent when new software files are available for download from the extranet.
The newest software file shall be downloaded on the service PC. We recommend the newest software available
always be updated on equipment that runs an older software version. This will assure the maximum exploitation
of the VHF 5000 equipment.
The distributed software will always be certified. Please check if a new version of the manual is also available
with the software file.
The service update can be performed on board the vessel, using the SB5006 Service Tool, following the
instructions in Appendix A.
2.3
Service tool update
A service message will be sent when new software files are available for download from the extranet.
The newest software file(s) shall be downloaded on the service PC. We recommend the newest software
available always be updated on equipment that runs an older software version. This will assure the maximum
exploitation of the SB5006 Service Tool.
Remember to check if a new version of the manual is also available with the software file.
Upload instructions are mentioned in "SB5006 Service tool".
Latest version can be located at the extranet.
0608
2-1
Maintenance
2-2
VHF 5000 System
VHF 5000 System
3
Functional unit workshop service
This chapter will explain in detail for each system component:
•
•
•
The service concept
How to replace parts that are covered by this service concept
Verification of the unit that has been repaired
Repairs and components that are not covered by the service concept will not be supported or supplied by Thrane
& Thrane.
3.1
Necessary test equipment
Function
Multi meter
Oscilloscope
Power meter
Frequency counter
Signal Generator
Dummy load ohm
Recommended type
Fluke
Textronics
Bird
Agilent
Agilent
Bird
Parameter
R; >100K ohm
400MHz
50W
Solution 1Hz
150-170MHz
50ohm 50W
Also recommended to use radio test set like CMT or Stabilock
3.2
Servicing the RT5022/RT5020 VHF transceiver
The VHF transceivers functionally exist in the following variants:
•
•
RT5022 VHF DSC Simplex, semi-duplex
RT5020 VHF DSC Duplex
Software updates and configuration tasks can always be performed on board using the SB5006 service tool.
Simple repairs, where the product is disassembled, and larger modules are exchanged, e.g. base unit or front
unit, can also be performed on board, followed by a simple interface check performed from the transceiver user
interface.
More detailed repairs inside the transceiver require the use of instruments to validate performance after repair.
It is up to the service technician to decide whether the repair should be performed on board the ship or in the
workshop.
3.2.1
Software
The software file always covers all functional transceiver models. The product difference is in the hardware, and
which parts of the software that are enabled. The SB5006 is used to configure the software for the specific radio
type.
We strongly recommend the products being updated with the newest software available. A few minutes should
be spent to consider the following:
•
•
•
All software parts are physically stored on the Base Band module.
If the product is damaged in a way that no contact can be established to the Base Band module via the
SB5006 service tool, all configuration data might be considered as lost for that radio.
If it is possible to save configuration data before a possible Base Band module exchange, this should be
done via the SB5006 service tool.
Updating the VHF transceiver to a new software version does not affect configuration data (contact list, private
channels, etc.). Configuration data should always be compatible with new software releases.
0608
3-1
VHF 5000 System
Identifying Software failures
The following diagram indicates the checks that can be done to identify software or configuration problems.
(-)
Power up the
radio
(SW-02)
DSP?
(SW-03)
Filesys?
Failed
(SW-04)
Errors?
Failed
Test Flow
Terminated
Passed
Failed
Passed
(SW-01)
OS?
(SB5006
manual)
Update VHF
software
(SW-05)
Fix normal
errors
(SW-04)
Errors?
Failed
(BB-Flow)
Baseband
module
40421
Fig. 1 (SW) – Software test flow diagram.
The most common operational faults are collected below:
Reference
SW-01
SW-02
SW-03
Operation/Test
Test Criteria
Check if the operating
Fail: ”- -” moving up and down
and application program on upper display.
is present.
Pass: Otherwise
Check if the DSP image Fail: ”- ” ” -” moving sidewards
continuously.
is present.
Pass: Otherwise
Check if file system is Fail: “Page not found” shown
when running the service tool.
present in radio.
Pass: Otherwise
SW-04
Check if any errors are
shown in display or
service tool
Fail: Error messages after any
start-up attempt.
Comments/instructions
Radio in boot monitor. Application program
not found. Please download new software
image.
DSP software missing. Please download
new software image.
Connect SB5006 service tool.
• HTML file system missing in VHF
radio. Please download new software
• SB5006 configured wrong. Configure
to auto-negotiate.
If normal user errors like MMSI number or
serial number settings have been set, only
technical related errors
Pass: No error messages after
start-up
SW-05
Fix normal errors
Start-up errors like missing serial number or
missing MMSI number should be fixed
according to the description in manuals.
Tabel 1 (SW) - SW test operations.
3-2
0608
VHF 5000 System
3.2.2
Manuals
Only a single operations manual covers all VHF Series 5000 transceiver models. Software updates might add
new features to the product, even if the upgrade is free of charge. In the service message sent out with new
software releases, there might be a recommendation to also update the manuals on board the vessel.
3.2.3
Service tool
The SB5006 service tool is compatible with all models of the SAILOR VHF 5000 Series equipment. The tool is
the single equipment needed for updating and configuration of the RT5022/RT5020 transceiver software.
3.2.4
Service concept – RT502x VHF DSC main unit
The service and repair concept of the RT502x VHF main unit may be divided into two situations, namely onboard
repair and workshop repair. The two differs mainly in that specific workshop measurement devices for the
verification of certain equipment performance parameters will not be available for onboard service - and to some
extend the often limited time available onboard to perform the repair.
Onboard service & repair:
The onboard service & repair, besides the VHF equipment itself encompasses also the part of the ship’s
installation pertaining to the operation and performance of the VHF equipment, i.e. antenna installations,
associated cabling, ships power supply, external power supply units etc. all of which must be in correct and
proper condition to enable the proper function and performance of the VHF installation.
In terms of equipment repair this may be accomplished in different ways and levels, depending on the available
time for the repair, available parts, technician’s knowledge of the equipment etc. Fast and effective equipment
repair will be accomplished through replacement of pre-tested base unit or front assy’. replacement.
Supported service repairs
This manual will be instructive to do the following repairs on the transceiver unit:
•
•
•
•
•
•
•
•
•
•
0608
Transceiver base unit (complete)
Transceiver control unit (simplex complete)
Transceiver control unit (duplex complete)
Mounting plate
Cover
Base Band module
RF module
Power amplifier
Switch mode power supply
Duplex filter (including cables)
3-3
3-4
Description
VDR Audio+
VDR AudioAUX2
AUX2 (open)
AUX1
AUX1 (open)
Internal speaker +
Internal speaker DSC call
DSC call (open)
Ground
NMEA+
NMEADSC alarm
DSC alarm (open)
Ground
OPTION
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
40375
SPEAKER CONNECTION
Description
Pin
Audio +
1
Audio 2
Description
12.5V supply
Data +
Data Microphone audio +
Microphone audio Ground
12.5V
Received audio signal+
Received audio signal12.5V
External speaker+
External speaker Ground
Line out +
Line out Ground
Speaker
DISPLAY
Description
Pin
+5V
1
Ground
2
Not in use
3
Data 0
4
Data 1
5
Data 2
6
Data 3
7
Data 4
8
Data 5
9
Data 6
10
Data 7
11
Chip select 1
12
13
Chip select 2
Display reset
14
15
Ground
DI
16
17
Display write
18
Ground
19
+3.3 V
Backlight
20
Keyboard/display PCB
Option
Sparc
Handset
KEYBOARD
Description
Pin
Column 0
1
Column 1
2
Column 2
3
Column 3
4
Column 4
5
Row 0
6
Row 1
7
Row 2
8
Row 3
9
Row 4
10
Volume 2
11
Volume 1
12
13
Squelsh 2
Squelsh 1
14
15
Segment latch 1
Segment latch 2
16
17
Indicator latch
18
Volume latch
19
Squelsh latch
NOT IN USE
20
Baseband PCB
LIGHT
Pin
1
2
3
4
5
6
RF PCB
Description
Keyboard Light
Segment Light
Battery On/off switch
+12.5V
Ground
PSU
Power
FOR POWER SUPPLY
Description
+10 to +32V
Ground
TRANSCEIVER
Description
Pin
Received Signal
1
Not in use
2
Modulation signal
3
Received signal
4
Not in use
5
High tension
6
Power Amplifier key
7
PTT signal
8
Power 1W/25W
9
Medium power
10
Power valid
11
RX lock detect
12
13
DSC lock detect
TX lock detect
14
15
Data
Clock
16
17
RX latch enable
18
DSC latch enable
19
TX latch enable
Duplex mode
20
RF POWER
Description
Pin
12,5 V
1
12,5 V
2
12,5 V
3
12,5 V
4
12,5 V
5
12,5 V
6
12,5 V
7
12,5 V
8
12,5 V
9
12,5 V
10
GND
11
GND
12
GND
13
GND
14
GND
15
GND
16
GND
17
GND
18
GND
19
GND
20
BASEBAND POWER SUPPLY
Description
Pin
3.3v DIGITAL SUPPLY
1
3.3v DIGITAL SUPPLY
2
Not in use
3
PRIM ON ?????
4
Battery +
5
Battery 6
On/Off switch
7
NOT IN USE
8
Ground
9
Ground
10
Ground
11
Ground
12
Ground
13
Ground
14
15
+12.5V
+12.5V
16
17
+12.5V
18
+12.5V
19
+12.5V
+12.5V
20
POWER
Pin
1
2
3.2.5
SPARC
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
HANDSET
Description
Pin
Ear piece audio
1
Hook detection
2
Ground
3
+5V supply
4
Ground
5
Not in use
6
Microphone audio
7
PTT signal
8
Ground
9
VHF 5000 System
Electrical Interconnection diagram
0608
VHF 5000 System
3.2.6
Available spare parts
Check eShop at http://extranet.thrane.com
1007
3-5
VHF 5000 System
3.2.7
Removing/installing the Cover of RT5022/RT5020
Removal/Installing
•
If the radio has been installed using the Mounting Bracket, remove the two Mounting Plates (item 3) by
removing the 6 x Screw M4x8 (item 4)
Tools required:
•
Remove the 4 x Screws M3x8 with Washers (items 1 and 2)
Tools required:
•
Torx screwdriver, size 15
The cover (item 5) can now be removed by pulling it backwards from the Radio.
5
3
1
2
4
40161A
3-6
0608
VHF 5000 System
3.2.8
Removing/installing the Base Control Unit from Base Unit
Removal/Installing
•
Remove 4 x Screw M2.5x8 (item 8)
Tools required:
•
•
The base control unit (item 7) can now be disassembled from the base unit (item 6) by pulling forwards.
Remove 3 x ribbon cable and loudspeaker cable between base control unit (item7) and base unit (item6)
8
7
5
6
40162A
10
11
12
7
5
9
6
8
0608
3-7
VHF 5000 System
3.2.9
Removing/installing the Duplex filter from the VHF transceiver unit
The Duplex filter should be firm fixed in all cable connections. There are no specific tests that identify failures
in the duplex filter.
For the RT5020 – Duplex transceiver an over temperature detection is enabled. If the over temperature warning
message displays on the RT5020, under conditions where the transceiver has not been overheated and has
not been in a constant transmitting state for 1 hour, an error might be in the temperature sensing component.
The temperature sensor is located on the Base Band module, which – in this case - should be replaced.
Use the following procedures & illustrations to remove/
install the Duplex Filter. The sequence of the procedures applicable to the removal and the installation
respectively is consecutively numbered 1 through 3
and should be carried out in accordance with this.
Removal:
• Remove 4 x Cables on the bottom of the radio.
(See Fig. 1)
Tools required: Flat-nose pliers.
Fig. 1
• Remove 4 x Screw M3x8.
The duplex filter including bracket can now be
removed from the radio.(See Fig. 3)
• Remove bracket from duplex filter by removing
4 x Screw M3x5. (See Fig. 4)
3
Installing:
• Install the bracket onto the duplex filter using
4 x screw M3x5, applying a torque of max. 1Nm
(See Fig. 4)
Tools required: Torx screwdriver, size 10.
1
4
Fig. 2
• Install bracket at the Base Band module shield
using 4 x screws M3x8, applying a torque of max.
1Nm (See Fig 3).
• Mount Cables for Duplex filter as shown by
numbers: (See Fig. 2)
1. Green
2. Yellow
3. Red
4. Blue
• Position the cables into the cable grooves at the RF
module shield (See Fig. 1).
Fig. 3
Fig. 4
3-8
0608
VHF 5000 System
3.2.10 Removing/installing the SMPS from the VHF transceiver unit.
The switch mode power supply module is a candidate for replacement identified from a number of flows:
(PC-Flow)
Power
connector
(SPP-Flow)
SPARC-II
power
(HSC-Flow)
Handset
connector
(Replace)
Replace
SMPS
(MKDCflow)
MKD power
(MPC-Flow)
Module
power
40461
Fig. 2 SMPS module replacement. (See section 3.2.15 for details on fault identification)
No other fault identification tests are available before replacement of this module.
Use the following procedures & illustrations to remove/install the SMPS. The sequence of the procedures
applicable to the removal and the installation respectively is consecutively numbered 1 through 5 and should
be carried out in accordance with this.
Removal:
• Gain access to the build-in power supply module by
removing the cover and the front part assy’ (Control
Unit) from the radio.
The PSU is located in right hand side of the radio
as viewed from front.
Fig. 1
1007
3-9
VHF 5000 System
• Locate the 8-pin connector in front of the PSU
module.
This connector is secured to shielding cover of the
PSU module by means of a sealing compound.
Fig. 2
• Release the sealing compound from the PSU
shielding cover by cutting, using a sharp knife.
Clean connector and PSU cover for any residual
sealing compound.
Fig. 3
• Remove the cover of the PSU by removing two (2)
screws (Torx TX10) (see Fig. 4) securing the cover
to the PSU chassis and carefully lift the cover from
the PSU.
Retain screw and cover for re-installation later.
Remove the four (4) TORX TX10 screws located
inside the PSU at the base, the two (2) stand offs
and two (2) TORX TX10 screws located at the rear
side of the radio securing the E-shaped cooling
profile to the radio chassis.
Remove the two (2) 20-pin ribbon cable connectors
at the baseband PCB and RF PCB respectively. Do
NOT remove connectors at PSU side since the
ribbon cables will be included with the replacement
PSU module.
3-10
Fig. 4
Fig. 5
1007
VHF 5000 System
Remove the two (2) socket screws securing the
power plug to the radio chassis.
Fig. 6
• Remove the PSU module from the radio.
Fig. 7
• Remove the four (4) retainer clips holding the
regulator transistors against the E-profile and
remove the E-profile from the PSU module. Retain
the E-profile for use with the replacement PSU
module. Retainer clips may be discarded of as new
clips are included with the replacement PSU module.
Fig. 8
• Prepare the new PSU module by soldering the DC
power plug supplied with the replacement module
to the PCU PC board. Refer to the removed PSU
for correct wiring.
1007
Fig. 9
3-11
VHF 5000 System
Note: Cut the end stubs of the wires on the soldering
side of the pcb to a length not exceeding 3mm.
Fig. 10
Installing:
• Position the new PSU module in the chassis.
Fig. 11
• Install the screws and the two (2) stand offs which
were removed in step 4.
Note: When tightening up the screws and stand
offs exercise care not to over tighten to avoid
damaging the threads in the chassis.
Fig. 12
• Verify that the two insulation sheets at the E-profile
are in good condition. If damaged in any way they
should be replaced.
Fig. 13
3-12
1007
VHF 5000 System
• Fasten the E-profile to rear chassis by means of the
two (2) screws installed from the back of the radio.
Carefully observe that the E-profile does not rest
on top of any components of the PSU module.
Fig. 14
• Install the Prespan carbon sheet between coil and
the E-profile to ensure insulation of the coil from
chassis.
Fig. 15
• Carefully install a retainer clip over each of the
regulator transistors to hold these tight against the
E-profile to ensure proper cooling.
Fig. 16
• Using a piece of cardboard of approx. 1mm
thickness, check and ensure sufficient spacing of
clips to surrounding components to avoid clips
shorting to such.
1007
Fig. 17
3-13
VHF 5000 System
• Use a small amount of sealing compound (must not
contain acid) to provide support of the coil to the
stand off.
Fig. 18
• Use a small amount of sealing compound (must not
contain acid) to provide support of the ferrite coil
and power plug wiring to the E-profile.
Fig. 19
• Reinstall the cover on top of the PSU module and
secure it using the two (2) screws.
Fig. 20
• Position the DC power plug in the rear chassis of
the radio and secure it using the two (2) socket
screws.
3-14
Fig. 21
1007
VHF 5000 System
Fig. 22
• Secure the 8-pin connector at front of the PSU to
the PSU cover using a small amount of sealing
compound (must not contain acid).
Fig. 23
• Connect the two (2) 20-pin ribbon cable connectors
to the RF board and the Baseband board
respectively.
Fig. 24
• Connect the front part (Control Unit) to the radio. Assemble the cover of the radio and perform a final test
of the complete radio.
1007
3-15
VHF 5000 System
3.2.11 Removing/installing the BB module from the VHF transceiver unit.
Use the following procedures & illustrations to remove/install the Base Band module. The sequence of the
procedures applicable to the removal and the installation respectively is numbered 1 and 2 and should be carried
out in this sequence.
(SW-Flow)
Software
flow
(OCGP-Flow)
option
connect GPS
(OCVDRflow)
option VDR
(OCR-flow)
option conn.
relay
(SPD-flow)
SPARC-II
data
(HSC-Flow)
Handset
connector
(Replace)
replace
baseband
(MKDCflow) Radio
front conn.
(MPC-Flow)
module
power
(TIC-flow)
tranceiver
control
(TIAF-flow)
transceiver
audio
40462
Fig. 3 Base Band module replacement. (See section 3.2.15 for details on fault identification)
The Base Band module is identified for replacements from several flows.
3-16
1007
VHF 5000 System
Removal:
• Remove 4 x screws securing the BB-shield to
the chassis. (See Fig. 1)
Carefully lift and remove shield from
BB module.
• Disconnect all cables connected to the BB-module.
Remove 2 x screws securing the audio power
amplifier IC against the heatsink through the
retaining plate.
Remove two screws positioned in opposite
corners of the BB module securing this to the
chassis.
Carefully lift out the BB module from the
chassis.
Tools required: Torx screwdriver, size 10
3
2
1
4
Fig. 1
Installing:
• Disconnect all cables connected to the BB-module.
Remove 2 x screws securing the audio power
amplifier IC against the heatsink through the
retaining plate.
Remove two screws positioned in opposite corners
of the BB module securing this to the chassis.
Carefully lift out the BB module from the
chassis.position the BB module correctly in the
transceiver chassis.
Secure by installing two screws in opposite corners
of the BB module, applying a torque of max. 0.7Nm.
Install retaining plate on top of audio power amplifier
IC and secure this against the heatsink by tightening
2 x screws, applying a torque of max. 1.0Nm.
Connect cabling.
• Position the BB-shield correctly over the BB module.
Be careful in this process not to cause any damage
to the copper grounding strip at tached to transceiver heatsink Install 4 x screws loosely.
When ready to tighten screws gently press the BBshield against the pc-board and against the
grounding strip/heatsink.
Tighten the 4 screws in the sequence indicated by
the numbering (See Fig. 1), by applying a torque
of max. 0.7Nm.
0608
Fig. 2
Fig. 3
3-17
VHF 5000 System
Configuring the Radio after replacement of the Base Band module
As all radio configuration and identity data resides on the Base Band module, it is necessary to configure a few
settings on the radio, after the base unit or the Base Band module has been replaced:
•
Serial number must be set. The serial number of the radio is found on the identity tag on the rear bottom
side of the cover. The serial number set in the radio, must match the serial number displayed on the tag.
Important: You must program the serial number correct the first time. It can only be programmed once.
Radio Type. The radio type must be set to either simplex or duplex according to the actual hardware.
“Simplex” must be selected for an RT5022 Simplex type, and “Duplex” must be selected to configure the
software to control a duplex radio.
•
The settings are entered using the SB5006 service tool. Please consult the SB5006 operations manual (e.g.
Part 5 in this manual) on how to program “System Parameters”.
If the service interface is able to run with the RT50XX unit before repair, it will be possible to save the radios
original user-specific settings (channel settings, contact list, etc.), before base unit/Base Band module is
replaced.
After the repair has been done, any saved configuration parameters can be copied back to the radio.
NOTE: The System Parameters (e.g. serial number) are not part of the configuration parameters that can be
automatically copied.
3.2.12
Removing/installing the RF module of the VHF transceiver unit.
(MPC-Flow)
module
power
(TIC-Flow)
transceiver
control
(TIAF-flow)
transceiver
audio
(Replace)
replace
PCB or PA
module
(RTA-flow)
Rx/Tx
antenna
(DSCA-flow)
DSC antenna
40463
Fig. 4 RF or PA module replacement. (See section 3.2.15 for details on fault identification)
The antenna check flows (RTA and DSCA) might point on problems with the RF module. The connection
between antennas and RF module are located under the Base Band module. Therefore the Base Band module
must be removed before the antenna connection can be checked.
Use the following procedures & illustrations to remove/install the RF module. The sequence of the procedures
Note: In case of the RT5022 simplex/semi duplex VHF step 1) for “Removal” and step 6) for “Installing” in the
following procedure, does not apply.
Tests that have lead to the replacement of either RF module or the Power amplifier module (PA) are listed in
the following figure.
3-18
0608
VHF 5000 System
Removal:
• Disconnect 4 x cables connecting duplex filter
to the RF module (See Fig. 1).
Each cable is identified by a coloured sleeve as
follows (See Fig. 2):
1. Green
2. Yellow
3. Red
4. Blue
Tools required: Flat nose pliers
• Remove 10 x screws securing shielding cover of
RF module and remove cover.
Fig. 1
• unsolder the oins of the PA module and slightly lift
these from the RF module.
• unsolder and remove the tinned copper wire
connecting each antenna connector center pin to
the RF module. Retain the tinned copper wires for
subsequent installation of the RF-module
3
• remove antenna connectors by removing 4 x screws
fastening each connector to chassis.
• remove 4 x screws securing RF module to chassis
and carefully lift out the RF module while being
careful not to bend pins of the PA-module in the
process.
1
2
4
Fig. 2
4
1
Installing:
• carefully position RF module in chassis while being
observant not to damage or cause e x c e s s i v e
bending of the pins of the PA-module Secure RF
module to chassis by installing 4 x screws, applying
a torque of max. 1.0Nm.
Carefully solder pins of PA module to the RFmodule.
Tools required: Torx screwdriver, size 10
Soldering iron.
2
3
Fig. 3
• Position antenna connectors in chassis while noting
the correct position of the tapered opening for
soldering and secure each by installing 4 x
screws, applying a torque of max. 1.0Nm.
• Install and solder each tinned copper wire to the RF
module making sure that the wire just passes
through the module in order not to cause any short
circuiting to chassis.
Solder each copper wire to the respective antenna
connector center pin.
Tools required: Soldering iron, xx watts
Fig. 4
• Solder each pin of the PA module to the RFmodule.
Tools required: Soldering iron.
1007
Fig. 5
3-19
VHF 5000 System
• Position the shielding cover correctly over the RF
module.
Install all 10 x screws loosely followed by tightening
the outermost 4 screws in the order indicated in the
illustration, applying a torque of max. 0.7Nm.
Tighten the remaining 6 x screws applying a torque
of max. 0.7Nm.
Using same sequence further tighten the 10 screws
applying a torque of max. 1.0Nm.
• Connect duplex filter cabling according to their
respective colour code – refer to Fig. 2
- Ensure that each cable connector is seated
properly in its respective mating connector of the
RF module and position each cable in the
appropriate cable groove of the RF module shielding
cover.
Fig. 6
Fig. 7
3.2.13 Removing/installing the PA module of the VHF transceiver unit
Use the following procedures & illustrations to remove/install the PA module. The sequence of the procedures
Removal:
• Disconnect 4 x cables connecting duplex filter to
the RF module (See Fig. 1).
Each cable is identified by a coloured sleeve as
follows (See Fig. 2):
1. Green
2. Yellow
3. Red
4. Blue
Tools required: Flat nose pliers
• Remove 10 x screws securing shielding cover of
RF-module and remove cover.
Fig. 1
• Unsolder the pins of the PA module and lift these
from the RF module Remove and retain the
(glasflex) insolation from each PA module pin.
3
• Remove 4 x screws securing the BB-shielding
cover to the chassis.
Carefully lift and remove cover from BB module.
1
2
4
Fig. 2
3-20
1007
VHF 5000 System
• Remove 2 x screws securing the PA module to the
chassis heatsink and gently lift out the PA module.
4
1
2
Installing:
3
Fig. 3
• Apply an adequate amount of heatsink compound to PA module base – (See Fig. 2).
Place PA module in its correct position while being
observant that the pins of the PA module pass
freely through RF module cutouts.
Install 2 x screws and fasten PA module securely
to heatsink, applying a torque of max. 1.0Nm.
Fig. 4
• Position the BB-shield correctly over the BB module.
Be careful in this process not to cause any damage
to the copper grounding strip at - tached to transceiver heatsink.
Install 4 x screws loosely.
When ready to tighten screws gently press the
BB-shield against the pc-board and against the
grounding strip/heatsink.
Tighten the 4 screws in the sequence indicated
by the numbering, applying a torque of max. 0.7N.
• Insert (glasflex) insolation over each PA- module
pin.
Solder each pin to the RF module soldering pads.
Tools required: Soldering iron.
• Position the shielding cover correctly over the RFmodule.
Install all 10 x screws loosely followed by tight
ening the outermost 4 screws in the order indicated
in the illustration, applying a torque of max. 0.7Nm.
Tighten the remaining 6 x screws applying a torque
of max. 0.7Nm.
Using same sequence further tighten the 10 screws
applying a torque of max. 1.0Nm.
• Connect duplex filter cabling according to their
respective colour code – (See Fig. 2).
- Ensure that each cable connector is seated
properly in its respective mating connector of the
RF module and position each cable in the
appropriate cable groove of the RF module shielding
cover.
1007
3
2
1
4
Fig. 5
Fig. 6
Fig. 7
Fig. 8
3-21
VHF 5000 System
3.2.14 Removing/installing the internal loudspeaker of the VHF
The transceiver front might need replacement (or perhaps only the speaker) if any of the flows indicate that
replacement is needed.
(OCIS-flow)
Option int.
speaker
(SPC-flow)
Speaker
connector
(Replace)
replace
speaker or
MKD
(MKDCflow) Radio
front conn.
40464
Fig. 5 MKD or internal speaker replacement. (See section 3.2.15 for details on fault identification)
No other tests have been created for further verification.
Use the following procedures & illustrations to remove/install the internal loudspeaker of the VHF5000.
Note: The Base Control Unit should be detached from the VHF Base Unit before proceeding (refer to para.
3.2.5.).
Removal:
• Remove 4 x screws securing the loudspeaker and
loudspeaker housing to the Base Control Unit.
• Remove loudspeaker housing and lift out loudspeaker.
Installing:
• Position loudspeaker and loudspeaker housing
correctly in Base Control Unit with cable outlet at
top.
Fig. 1
• Install 4 x screws and tighten by applying a torque
of max. 0.7Nm.
Fig. 2
3-22
0608
VHF 5000 System
3.2.15
Detailed fault finding
Identifying failures on the external connectors
This section will describe some possible scenarios to follow if the RT5022/RT5020 seems to be working poor
or not at all together with attached external devices.
Before dismantling the transceiver unit, check always first the installation (with reference to the installation
section in the manual). A full replacement of the RT5022 or RT5020 transceiver, to verify the installation, might
save time before looking for errors inside the transceiver.
(PC) - Power connector
If you reach this section of the manual, it is because it has been impossible to power on the product. Installations
and battery is already checked and found OK. The power connector is located on the rear side top right (see
Section “Interface connections” in the installation section).
(Installation)
battery and
cable check
OK
(PC-01)
Replace supply
fuse
(PC-02)
Startup?
(PC-03)
Check power
connector
(Replace)
replace
power
connector
(SMPS-flow)
Switch mode
power
supply
Failed
Failed
(PC-02)
Startup?
(PC-02)
Startup?
Test Flow
Terminated
40423
Fig. 6 (PC) - Power connector validation flow
Reference
Operation/Test
PC-01
Replace main fuse in
power line
PC-02
Check start-up of
product.
PC-03
Check power connector.
Test Criteria
Pass: The radio can be
powered, and it is possible –
without warning messages to
transmit with 25W output.
Fail: Otherwise
On the back of the radio the main fuse is
located. Check the fuse is fixed or replace
the fuse with another one. See also
installation section of the RT5022/RT5020
Verification should be done with mounted
antenna on the RX/Tx antenna output, or
dummy load.
Check the sanity of the power connector.
Pull out power cable and check for
corrosion. If OK insert again and secure
Power connector should be replaced if in
bad condition.
Tabel 2 (PC) - Power connector test operations
0608
3-23
VHF 5000 System
(RTA) - Rx/Tx antenna connection
The Rx/Tx antenna connection is located on the rear right side of the VHF transceiver (see Section “Interface
connections” in the installation section). If you reach this section of the manual, it is because there are
identified problems with either the transmission of Voice/DSC or the reception of a voice signal. Antenna
conditions and antenna installations have been checked OK as well.
(Installation)
Aerials and
cable check
(RF-flow)
Fault finding
RF module
or PA
(Replace)
Replace PA
(power
amplifier)
OK
(RTA-01)
secure antenna
connector screw
Failed
(RTA-02)
RF fail?
Passed
Failed
(RTA-03)
Reports?
Passed
Failed
(RTA-04)
DSC test?
Passed
Failed
(RTA-05)
DSC test?
Passed
Test Flow
Terminated
40425
Fig. 7 (RTA) - Rx/Tx Antenna connection
3-24
0608
VHF 5000 System
Reference
Operation/Test
RTA-01
Secure antenna connector
RTA-02
Check reports for severe
RF module errors in
transceiver display.
RTA-03
Check reports for other
errors in transceiver
display.
Test Criteria
The antennas must be attached using
original antenna connectors. The connector
is buckled tight onto the antenna bush.
Pass: None of the listed
messages
During Rx/Tx shifts (PTT) no error messages
with the category: “System malfunction”
must be shown, e.g. Synthesizer lock errors.
Fail: Otherwise
Pass: No errors. Though high Error messages should not show while the
temperature protection
unit is used normally
messages are allowed.
Fail: Otherwise.
RTA-04
Make a DSC test
If an RT5020-duplex radio, power cycle
product. Watch for the message (temp too
high…..). In case this message appear, the
product was overheated and automatically
protected by degrading output power.
Pass: All DSC tests passed. External DSC test
Fail: External test fails, but
internal test passes
RTA-05
Check output power
Pass: Output power higher
than 25W
• Do a safety test call to an individual
station or a GMDSS tester.
Internal DSC test
• From the transceiver front select the
internal DSC test command from menu
5.5.
Measured with a power meter.
Fail: See comments on the
right
In case the power is not what was expected
and/or the message “Transmitter output
power not valid” is shown in the display, but
the product seems otherwise functional,
proceed to PA replacement.
Tabel 3 (RTA) - Rx/Tx antenna connector tests
(DSCA) - DSC receiver antenna connection
The DSC antenna connection is located on the rear left side of the VHF transceiver (see Section “Interface
connections” in the installation section). If you reach this section of the manual, it is because there are identified
problems receiving DSC calls. Antenna conditions and antenna installations have been checked OK as well.
(Installation)
Aerials and
cable check
OK
(DSCA-01)
Secure antenna
connector screw
(RTA-flow)
Proceed from
RTA-02
40427
Fig. 8 (DSCA) - DSC antenna connection
Reference
Operation/Test
DSCA-01 Secure antenna
connector
Test Criteria
The antennas must be attached using
original antenna connectors. The connector
is buckled tight onto the antenna bush.
Tabel 4 (DSCA) – DSC antenna connector tests.
1007
3-25
VHF 5000 System
(OCGP) – GPS/NMEA input
The option connector is the upper D-SUB 15 Male connector on the rear side (see Section “Interface
connections” in the installation section). The GPS input is a differential input on pins 12 and 13.
This section is consulted after the installation and sanity check of the GPS device has been performed.
(Installation)
GPS unit
and cables
OK
(OCGP-01)
Secure option
connector screw
Failed
(Replace)
Replace BB
(base band
board)
Failed
(OCGP-02)
Position
(OCGP-03)
Self test?
Passed
Passed
Test Flow
Terminated
40429
Fig. 9 (OCGP) - Option connector GPS tests
Reference
Operation/Test
Test Criteria
The 15-pole DSUB cable connector is
fixed to the transceiver using the
OCGP-01 Secure option connector
NOTE: Refer to the installation section for
connector pin ratings.
OCGP-02 Verify position on Idle
screen
Pass: The header line must
Fail: Any other: (invalid)
(manual) (GPS-OFF), shown
when external GPS equipment
is functioning, indicates the
NMEA connection is defect.
OCGP-03 Run GPS self test
Pass: The position is shown,
and the header line must
The GPS test is executed by selecting
“GPS” in the accessory menu 5.6.
Fail: “Not connected” is shown
in display.
Tabel 5 (OCGP) - Option connector GPS tests
3-26
0608
VHF 5000 System
(OCVDR) – Option connector VDR interface
connections” in the installation section). The VDR output is a differential output on pins 1 and 2
This section is consulted after the installation and sanity check of the VDR device has been performed.
(Installation)
VDR unit
and cables
(TIC+TIAF
flow)
Transceiver
(Replace)
Replace BB
(base band
board)
OK
(OCVDR-01)
Secure option
connector screw
Failed
(OCVDR-02)
Resceive?
Passed
Failed
(OCVDR-03)
Transmit?
Passed
Test Flow
Terminated
40431
Fig. 10 (OCVDR) - Option connector VDR test flow
Reference
Operation/Test
Test Criteria
OCVDR-01 Secure option connector
The 15-pole DSUB cable connector is fixed
OCVDR-02 Verify received signal is
Pass: Voice signal received
passed to the VDR output can be measured on pins 1
and 2.
Fail: Signal is not measured
OK.
OCVDR-03 Verify transmitted signal is Pass: Voice signal
passed to the VDR output transmitted can be measured
on pins 1 and 2.
The signal output on the VDR output is a
0dBm signal.
The signal output on the VDR output is a
0dBm signal.
Fail: Signal is not measured
OK.
Tabel 6 (OCVDR) - Option connector VDR tests
1007
3-27
VHF 5000 System
(OCR) – Option connector external relay terminals
connections” in the installation section). The Relay terminals are assigned as follows:
•
•
•
•
AUX2 – pins 3 and 4
AUX1 – pins 5 and 6
DSC CALL – pins 9 and 10
DSC ALARM – pins 14 and 15
This section is consulted after the installation and sanity check of the connected external devices and that the
loading of the relays are within the specified values.
(Installation)
external unit
and cables
OK
(OCR-01)
Secure option
connector screw
(OCR-02)
Initial state
(Replace)
Replace BB
(base band
board)
Failed
(OCR-03)
Relay test?
Passed
Test Flow
Terminated
40431
Fig. 11 (OCR) - Option connector relay test flow
Reference
Operation/Test
OCR-01
Secure option
connector
Test Criteria
to the transceiver using the corresponding
screws.
OCR-02
The DSC CALL and DSC ALARM open
relay state is achieved if no active DSC
calls are active.
Initialize relay states to
open state
OCVDR-03 Verify relay function
The open state of the AUX1 and AUX2
relays is achieved by selection of a channel
where the AUX relays has not been set as a
channel property via the service tool.
The relay test is executed via the menu 5.4.
Pass: Closing state is
recognized for all relays while The closing state will be activated in 3
alarm tone is heard. Open
seconds.
state is recognized when
sound stops.
Fail: Otherwise.
Tabel 7 (OCR) - Option connector relay test tasks
3-28
0608
VHF 5000 System
(OCIS) – Option connector internal speaker output
connections” in the installation section). The internal speaker in the transceiver is connected to the pins 7 and
8 in this connector facilitated test purposes. If no audio is coming out of the built in speaker, while expected, the
built in speaker might need replacement.
NOTE: During normal operation of the radio pins 7 and 8 in the option connector shall be left Not connected.
(OCIS-01)
Voice receiver
activation
(TIC+TIAF
flow)
Transceiver
(Replace)
Replace Int.
Speaker (on
MKD)
(OCIS-02)
speaker
input?
40435
Fig. 12 (OCIS) - Option connector internal speaker amplifier verification
Reference
Operation/Test
OCIS-01
Activate voice receiver
OCIS-02
Verify voice data
reception.
Test Criteria
E.g. by turning down squelch button or run
the alarm test from menu 5.4.
Speaker input is OK but no sound is heard
Pass: Voice signal is
measured OK between pins 7 in the built in speaker. Quality could be
and 8.
checked by connecting a sound device
between the two pins.
Fail: No signal measured on NOTE: Refer to the installation section for
option pins 7 and 8.
Tabel 8 (OCIS) - Internal speaker amplifier verification
(SPP) – SPARC-II connector Supply
The SPARC-II connector is the middle D-SUB 15 female connector on the left rear side (see Section “Interface
connections” in the installation section). Accessories attached to the SPARC bus do need to be supplied from
the connector.
(Installation)
Accessory
installation?
OK
(SPP-01)
Secure SPARC-II
connector
Failed
(SMPS-flow)
Switch mode
power supply
Passed
(SPP-02)
Power
check
Test Flow
Terminated
40437
Fig. 13 (SPP) - SPARC-II bus power check
0608
3-29
Reference
VHF 5000 System
Operation/Test
SPP-01
Secure SPARC-II
connector
SPP-02
Check power supply in
SPARC-II bus connector
Test Criteria
screws.
Pass: All supplies are valid.
Fail: Otherwise.
The following pins shall be measured to
12.5V: 1, 7 and 10.
Ground for measurement should be pins 6
and/or 13.
Tabel 9 (SPP) – SPARC-II bus power check
(SPD) – SPARC-II connector data check
connections” in the installation section). All of the accessory units (CU5000 or AP4365) that can be connected
to the SPARC-II port make use of the data signals in the line. If one unit is operational on the SPARC-II bus the
transceiver connection is OK. The best verification unit is the SB5006 service tool.
Installation
Accessory
installation?
OK
(SW-flow)
Software
updated?
OK
(SPP-01)
Secure SPARC-II
connector
Failed
(Replace)
Replace BB
(base band
board)
Passed
(SPD-01)
Data conn.
check?
Test Flow
Terminated
40421
Fig. 14 (SPD) - SPARC-II Data connection test flow.
Reference
Operation/Test
Test Criteria
SPD-01
Secure SPARC-II
connector
SPD-01
Check data connection on Pass: Operational HTML
the SPARC-II connector
pages.
Fail: Missing data pages
screws.
The service tool is connected to the
RT5022 SPARC-II connector. Power-on the
RT5022. Verify the SB5006 service pages
can be browsed without problems.
Tabel 10 (SPD) - SPARC-II Data connection verification.
3-30
0608
VHF 5000 System
(SPES) – SPARC-II external speaker test
connections” in the installation section). An external speaker can be connected to follow the Transceiver volume
setting. The speaker output is located on pins 11 and 12.
(SPES-01)
Voice receiver
activation
(TIC+TIAFflow)
Transceiver
Failed
(SPES-02)
Speaker
output?
Passed
Test Flow
Terminated
40441
Fig. 15 (SPES) - SPARC-II connector external speaker test flow.
Reference
Operation/Test
Test Criteria
SPES-01 Activate voice receiver
SPES-02 Verify received voice
signal
Pass: Voice signal is
measured OK between pins
11 and 12.
Speaker output shall be controllable via the
transceiver volume control.
Fail: No signal measured on
Tabel 11 (SPES) - SPARC-II connector external speaker tests.
(SPMA) – SPARC-II microphone audio line input
connections” in the installation section). The microphone line input in the SPARC-II connector contains the
microphone voice signal to transmit when operating the RT5022/RT5020 from a CU5000. The microphone input
line connects to the transceiver on pins 4 and 5.
To continue this test flow, you must verify you can establish a data connection on the SPARC-II bus. A CU5000
is needed to route the microphone audio to the baseband board via the.
OK
(SPMA-0I)
Microph?
Failed
(Replace)
Replace
CU5000
Passed
(SPD)
SPARC-II
data check?
Failed (TIC+TIAF-
flow)
Transceiver?
Passed
(SPMA-02)
Tx route?
Test Flow
Terminated
40449
Fig. 16 (SPMA) - SPARC-II connector microphone audio input validation flow.
0608
3-31
Reference
VHF 5000 System
Operation/Test
Test Criteria
SPMA-01 Verify microphone audio is Pass: Microphone audio
routed out from the
signal is measured OK
CU5000
between pins 4 and 5.
Fail: No signal measured on
SPMA-02 Verify audio routing is
transmitted on radio
Pass: Measure transmitter
output voice.
Fail: No signal transmitted.
Activate audio transmission by pushing
PTT from an active CU5000.
Measurement is done in parallel, f.ex. in
the connection box.
A VHF measure radio receiver can be
used.
Tabel 12 (SPMA) - SPARC-II connector microphone audio input tests.
(SPRA) – SPARC-II Receive audio output
connections” in the installation section). The received audio output in the SPARC-II connector contains the
received voice signal that is when operating the VHF from a CU5000. The receiver audio output is located on
pins 8 and 9 in the connector.
(SPRA-01)
Voice receiver
activation
(TIC+TIAFflow)
Transceiver
Failed
(SPRA-02)
RX audio
output?
Passed
Test Flow
Terminated
40453
Fig. 17 (SPRA) - SPARC-II receive audio output verification flow
Reference
SPRA-01
SPRA-02
Operation/Test
Test Criteria
Verify received voice data Pass: Voice signal is
The signal is a fixed normalized output. No
measured OK between pins 8 volume control possible on this pin.
and 9.
Fail: No signal measured on NOTE: Refer to the installation section for
Tabel 13 (SPRA) - SPARC-II receive audio output verification tasks
3-32
0608
VHF 5000 System
(SPLO) – SPARC-II connector line output
connections” in the installation section). An auxiliary line output can be used to connect an external audio
amplifier. Received voice is always routed to this output. The received audio line output in the SPARC-II
connector contains any received voice signal. The receiver audio output is located on pins 14 and 15 in the
connector.
(SPRA-01)
Voice receiver
activation
(TIC+TIAFflow)
Transceiver
Failed
(SPRA-02)
RX audio
output?
Passed
Test Flow
Terminated
40453
Fig. 18 (SPLO) – SPARC-II connector line output validation flow
Reference
SPLO-01
SPLO-02
Operation/Test
Test Criteria
E.g. by turning down squelch
button or run the alarm test from
Verify received voice data Pass: Voice signal is measured OK The signal is a fixed normalized
output. No volume control possible
between pins 14 and 15. Fail: No
signal measured on option pins 14 on this pin. NOTE: Refer to the
and 15
installation section for connector
pin ratings.
Tabel 14 (SPLO) – SPARC-II connector line output validation steps.
(HSC) – Handset connector flow
The handset connector is the lower D-SUB 9 connector on the rear left side of the transceiver (see Section
“Interface connections” in the installation section). The handset connector validation – if problems with the
handset are identified - is best done using a new handset or test equipment emulating a handset (see also
section “Handset block” description).
0608
3-33
VHF 5000 System
(HSC-01)
Secure handset
connector screw
(SMPS-flow)
switch mode
power supply
(Replace)
Replace BB
(Base band
board)
(TIC+TIAFflow)
Transceiver
(Replace)
Replace BB
(Base band
board)
(TIC+TIAFflow)
Transceiver
Failed
(HSC-02)
supply?
Passed
Failed
(HSC-03)
Hook?
Passed
Failed
(HSC-04)
Earpiece?
Passed
Failed
(HSC-05)
PTT?
Passed
Failed
(HSC-05)
Microph?
Passed
Test Flow
Terminated
40455
Fig. 19 (HSC) - Handset connector verification flow.
Reference
HSC-01
Operation/Test
Test Criteria
screws.
Secure handset connector
HSC-02
Verify supply voltage
HSC-03
Hook on/off
HSC-04
Earpiece sound
HSC-05
PTT function
HSC-06
Handset microphone test
Pass: Measure 5V between
pins 4 and (3,5,9).
Fail: Otherwise.
Pass: Audio is routed to
earpiece or PTT can control
the Tx indicator on the
transceiver – only if the
handset is hooked-off. None
Fail: Otherwise
Pass: Earpiece sound
available using scenario in
HSC-03.
Fail: Otherwise
Pass: Tx indicator on
RT50XX is lit if PTT is
Fail: Otherwise
Pass: Tone is transmitted on
VHF channel.
Fail: Otherwise.
Turn down squelch to receive voice.
Assure earpiece level is set correct on the
transceiver via menu 4.3.1.
Hook-off is required.
Apply a signal to the microphone input or
use handset.
Tabel 15 (HSC) - Handset connector verification tasks.
3-34
0608
VHF 5000 System
Identifying module interconnect errors
As this section requires the opening of the transceiver unit (please refer to the assembly/disassembly sections).
At this stage the following should already be checked:
•
•
•
•
All installations have been verified to be sane and operational
Accessory devices – if connected – have been validated.
External connector validation flows have been followed.
Self-test has been executed (menu 5). The result of the self-test execution might be able to lead to some
conclusions while searching for failures.
If one of the tests in this section fails, it would most likely involve the use of a cabling replacement kit. As a
reference for locating the different connectors, please consult the electrical interconnection diagram. Pin
number 1 is always identified by a red wire on the flat cables.
(SPC) – Internal speaker connection
The internal speaker is connected to the baseband PCB. The wires should be visually inspected for errors.
(SPC-01)
Voice receiver
activation
(Audio-flow)
Audio path
verification
Failed
(SPC-02)
Rx audio
output?
Passed
(Replace)
Replace
loudspeaker
(on MKD)
40457
Fig. 20 (SPC) - Speaker connection check
Reference
Operation/Test
SPC-01
SPC-02
Verify speaker signal
Test Criteria
Pass: Speaker signal can be
measured.
Tabel 16 (SPC) - Internal speaker check.
(MKDC) – Connections to the radio front module
The radio control unit (front module) is connected using three flat cable connections:
•
•
•
Display connector cable
Keyboard connector cable
Light connector cable
The check flow described in the following, is a guideline for identification of which module most likely is failing,
and need to be replaced, after broken cables have been checked.
1007
3-35
VHF 5000 System
(MKDC-01)
Power up
(SMPS-flow)
power supply
verification
Failed
(MKDC-02)
supply?
Passed
(Replace)
Replace
MKD or BB
Failed
(MKDC-03)
on/off?
Passed
(Replace)
Replace
MKD or BB
Failed
(MKDC-04)
Light?
Passed
(Replace)
Replace
MKD or BB
Failed
(MKDC-05)
Display?
Passed
(Replace)
Replace
MKD or BB
Failed
(MKDC-05)
Display?
Passed
Test Flow
Terminated
40443
Fig. 21 (MKDC) - Radio front module connections.
3-36
0608
VHF 5000 System
Reference
Operation/Test
Test Criteria
MKDC-01 Power up radio
MKDC-02 Power supply check
MKDC-03
MKDC-04
MKDC-05
MKDC-06
Pass: All power supplies are See Figure (ref XX). Voltages are
measured within
“LIGHT” connector:
Fail: Otherwise
• Pin 5: +12.5V
“DISPLAY” connector:
• Pin 1: +5V
• Pin 19: +3.3V
Power on/off
Pass: Display switches to
power off countdown when
on/off is pushed.
Fail: No reaction if on/off is
pushed
Verify keyboard light and Pass1: Keyboard light is
1) Adjust the dimming level to maximum.
If keyboard light is not activated at all the
upper display segment
activated all over the key
problem can also be in cable or baseband
light
pad.
board.
Pass2: All segments are
2) Run LED test from the self-test menu
(5.3).
activated.
Fail: Otherwise.
Verify graphical display
Pass1: Display has
1) Adjust the dimming level to maximum.
If display back light is not activated at all,
adjustable backlight.
the problem can be in cable or baseband
board.
2) Run Display test from the self-test
Pass2: Pattern is perfectly
menu (5.2).
recognized without any
missing pixels or areas.
Fail: Otherwise
Verify keypad and controls Pass1: Volume and squelch 1) Turn knobs left and right.
knobs can control the
volume and squelch indicator
Pass2: Keypad test passed. 2) Run Key test from the self-test menu
(5.1).
Fail: Otherwise
Tabel 17 (MKDC) - Radio front module checks
(MPC) – Module power connections
Three cables are connecting the main power supply:
0608
3-37
VHF 5000 System
(MPC-01)
Power up
(Replace)
Replace
power
connector
Failed
(MPC-02)
Source?
Passed
(Replace)
Replace BB
or MKD
Failed
(MPC-03)
BB Power?
Passed
(Replace)
Replace
SMPS
Failed
(MPC-04)
BB Power
source
Passed
(Replace)
Replace RF
Failed
(MPC-05)
RF Power?
Passed
(Replace)
Replace
SMPS
Failed
(MPC-06)
RF Power
source?
Passed
Test Flow
Terminated
40445
Fig. 23 (MPC) - Module Power supply check flow.
Reference
Operation/Test
Test Criteria
MPC-01
MPC-02
Power up radio
Power source check
MPC-03
Baseband power
Fail: Otherwise
Pass: All voltages verified.
MPC-04
Baseband power source
Fail: Otherwise
MPC-05
RF power
Fail: Otherwise
See electrical interconnection diagram.
Pass: Input power to the
SMPS equals the voltage fed
into the radio.
Check voltages sourced into the baseband
board are correct according to the
prescribed voltages on the electrical
interconnection diagram.
Repeat MPC-03 with “BASEBAND POWER
SUPPLY” disconnected.
Check voltages sourced into the RF board
are correct according to the prescribed
voltages on the electrical interconnection
diagram.
Fail: Otherwise
MPC-06
RF power source
Fail: Otherwise
Repeat MPC-05 with “RF POWER”
disconnected.
Fig. 18 (MPC) - Module power supply checks.
3-38
1007
VHF 5000 System
(ECC) – Connector cables to external devices
Three cables are connecting external devices to the baseband module:
•
•
•
SPARC connector
Option connector
Handset connector
If any external connector verification flow is failing, each of these three connector cables are examined for errors.
If no errors are found on the cables, the baseband module PCB probably need to be replaced. If a power supply
measure fails in any of the external connector checks, proceed to verification of the power supply module
(SMPS).
(TIC) – Transceiver interconnection
The internal transceiver connection between the baseband board and the RF board contains:
•
•
Radio control signals.
Voice receiver/transmitter AF signals and the DSC receiver AF signal.
In the following it is possible to identify if there is a problem on either two boards connected with the cable.
(TIC-01)
Power up
(Replace)
Replace BB
PCB
Failed
(TIC-02)
Clock?
Passed
Failed
(TIC-03)
Data?
Passed
Failed
(TIC-04)
Lock
detect?
Passed
(Replace)
Replace BB
PCB
Failed
(TIC-05)
PTT?
Passed
(Replace)
Replace BB
PCB
Failed
(TIC-06)
high
tension
Passed
Failed
(TIC-07)
PA key?
Passed
Failed
(TIC-08)
Power
1W/25W
Passed
(Replace)
Replace BB
PCB
Failed
(TIC-09)
RF Power
Passed
(Replace)
Replace BB
PCB
Failed
(TIC-10)
Duplex?
Passed
(Replace)
Replace BB
PCB
(Replace)
Replace BB
PCB
(Replace)
Replace BB
PCB
(Replace)
Replace BB
PCB
40447
Test Flow
Terminated
Fig. 24 (TIC) - Transceiver interconnection control signal flow.
0608
3-39
Reference
Operation/Test
TIC-01
Power up radio
TIC-02
SPI clock
TIC-03
TIC-04
SPI Data
Lock Detects
VHF 5000 System
Test Criteria
Pass: Activity observed
Digital output from baseband board (Pin 16)
Fail: Otherwise
Check signal is toggling when
activating/deactivating PTT.
Pass: Activity observed
Digital output from baseband board (Pin 15)
Fail: Otherwise
Check signal is toggling when
activating/deactivating PTT.
Digital outputs from RF board.
Pass: Signals high when
required.
Fail: Otherwise
• Pin 12 – RX lock detect shall be high
while receiving (measured 1 second after
PTT is released).
• Pin 14 – TX lock detect shall be high
while receiving (measured 1 second after
PTT is pressed).
• Pin 13 – DSC lock detect shall always
be high (measured 1 second after powerAny )system failure reporting wrong
frequencies in the display during normal
operations, are related to these signals.
Pass: High on active PTT.
TIC-05
PTT
TIC-06
High Tension
TIC-07
PA Key
Fail: Otherwise
Fail: Otherwise
Power 1W/25W
Fail: Otherwise
Pass: Activation observed.
TIC-08
Fail: Otherwise
TIC-09
Power Valid
TIC-10
Duplex (RT5020 duplex
radio only)
Digital output from baseband board (Pin 8).
Digital output from baseband board Pin 6).
This signal is toggled by pushing the 1W
button on the transceiver front.
Digital output from RF board (pin 11). Shall
be high during transmission (measured 1
second after PTT is activated).
Fail: Otherwise
Pass: Follow duplex channel Digital output from baseband board. The
duplex signal shall toggle if a channel shift
selections (high on duplex
from a duplex to a simplex channel is
channel).
performed (or vice versa).
Fail: Otherwise
Tabel 19 (TIC) - Transceiver interconnection control signal verification tasks.
Control signals shall be verified before any AF signal path is checked (Transceiver interconnection control signal
flow). If any of the control signals are failing it makes no sense to continue the following check flow (Transceiver
interconnection AF flow).
3-40
0608
VHF 5000 System
(TIAF-01)
Power up
(Replace)
Replace RF
PCB
Failed
(TIAF-02)
Voice
receiver?
Passed
Failed
(TIAF-03)
DSC
receiver?
Passed
Failed
(TIAF-04)
Modulated
signal?
Passed
(Replace)
Replace RF
PCB
Failed
(TIAF-05)
V receiver
frequency?
Passed
(Replace)
Replace RF
PCB
Failed
(TIAF-06)
DSC req.
freq?
Passed
Failed
(TIAF-07)
Transmit
frequency?
Passed
(Replace)
Replace RF
PCB
(Replace)
Replace RF
PCB
(Replace)
Replace RF
PCB
40459
Test Flow
Terminated
Fig. 25 (TIAF) - Transceiver interconnection audio frequency flow.
0608
3-41
Reference
TIAF-01
TIAF-02
Operation/Test
Power up radio
Voice receiver signal
check
VHF 5000 System
Test Criteria
Analog output (audio frequency) from RF
Pass: Activity AF signal
present and – if equipment and board (pin 1).
skills are present - receiver
Fail: Otherwise
TIAF-03
1) Bring radio in receiver mode generate
signal on Rx/Tx antenna and check
presence of the AF signal.
DSC receiver signal check Pass: Activity AF signal
Analog output (audio frequency) from RF
present and – if equipment and board (pin 4).
skills are present - receiver
sensitivity measured OK.
Fail: Otherwise
TIAF-04
Voice modulation signal
TIAF-05
Voice receiver frequency
TIAF-06
DSC receiver frequency
TIAF-07
Voice transmitter
frequency
Pass: Modulation signal is
present.
Fail: Otherwise
1) Generate signal on DSC antenna and
check presence of the AF signal.
2) With use of suitable equipment, the
DSC receiver sensitivity can also be
verified.
Analog output (audio frequency) from the
baseband board (pin 3).
1) Generate voice signal on any of the
microphone inputs. Verify AF modulation
signal.
2) The modulation signal can also be
generated with a DSC call transmission
(e.g. via self test menu 5.5).
Pass: Test signal received OK Generate a signal on the Rx/Tx antenna.
on desired frequency.
Modulate the signal to a few test frequencies.
Observe the clear voice data received with
desired sensitivity.
Fail: Otherwise
Pass: Test signal received OK Generate a DSC call sequence on the DSC
on desired frequency (ch 70). antenna. Modulate the signal to channel 70.
Observe the data is received with desired
sensitivity.
Fail: Otherwise
Pass: Modulated test signal
transmitted below frequency
deviation.
Fail: Otherwise
Tabel 20 (TIAF) - Transceiver interconnection audio path flow.
3.3
Servicing the HS5001 transceiver handset
The HS5001 VHF transceiver handset comes in a single version. The handset used on the transceivers is
identical for the RT5022 and RT5020.
NOTE: This handset is not the same as is used with the CU5000 remote control unit.
3.3.1
Manuals
There is no specific operations manual to the handset. Operation of the handset is described in the transceiver
manual.
3.3.2
Service concept – HS5001 tranceiver handset
The passive handset HS5001 may be repaired onboard or in workshop in regards to replacement of the spiral
cord only.
Supported service repairs
This manual will be instructive to do the following repairs on the transceiver unit:
•
3-42
Cable
0607
VHF 5000 System
3.3.3
Mechanical assembly and disassembly
Removing/installing the spiral cable of the HS5001 Handset
Use the following procedures & illustrations to remove/install the spiral cable of the HS5001 handset. The
sequence of the procedures applicable to the removal and the installation respectively is consecutively
numbered 1 through 3 and should be carried out in accordance with this
Removal:
• Remove the 2 x screws as indicated in Fig. 1.
Loosen (only) the screw at the cable end of the
handset app. two turns – refer to Fig. 2.
The upper handset part can now be separated from
the bottom part – refer to Fig. 3.
• Remove the 4 x screws (crosshead) securing pcb
tray to handset bottom part, refer to Fig. 4.
Lift spiral cable bushing from its supporting
bracket.
Fig. 1
• Remove silicone packing from pc-board tray.
• Gently lift pc-board tray from handset bottom part
just enough to turn over the tray to gain access to
the pc-board.
Disconnect spiral cable connector from pc-board
(use a small flat head screwdriver to disengage
connector from socket.
Carefully guide connector out from tray through
cutout, being careful not to damage the reed switch
in the process, see Fig. 7.
Fig. 2
Installing:
• Gently guide spiral cable connector through cutout
in pc-board tray, being careful not to damage the
reed switch in the process, see Fig. 7.
Connect spiral cable connector to pc-board socket
making sure connector is seated properly in socket.
• Install silicone packing over pc-board tray, making
sure that packing groove is seated correctly all the
way around.
Fig. 3
• Position pc-board tray correctly in handset bottom
part.
Install 4 x screws securing tray and fasten by
applying a torque of max. 0,3 Nm.
Slide spiral cable bushing over its supporting
bracket.
Tools required:
Torx screwdriver, size 8 or Crosshead screwdriver,
size 2.5mm.
Fig. 4
0608
3-43
• Attach upper handset part to bottom part, engaging
the taps at earpiece end first making sure that the
two parts are seated correctly together – see Fig.
3 – and not having any cabling stuck between the
two parts.
Install 2 x screws and tighten by applying a torque
of max. 0,4 Nm.
Fasten the screw at the end of the handset by
applying a torque of max. 0,4 Nm.
Tools required:
Torx screwdriver, size 10.
VHF 5000 System
Fig. 5
Fig. 6
Fig. 7
Available spare parts
Check eShop at http://extranet.thrane.com
3-44
1007
VHF 5000 System
Drawings
1
1
40175A
2
4
6
3
4
9
8
5
11
1
7
10
12
40176A
0608
3-45
VHF 5000 System
3.3.4
Fault Finding (HS5001)
Fault finding on the HS5001 transceiver handset is done following exactly the same flow as for verifying the
handset connector (HSC – Figure ??). Failing test should lead to errors in the handset functions tested, rather
than following the suggested subsequent flows. Although any conclusion on handset errors should only be done
if a new replacement handset works perfectly with the transceiver used for validation.
Common user faults
Handset fixed upside down in cradle. The cradle contains a single magnet that matches the handset reedswitch. This means the hook-on state is only detected if the handset is hooked on to the cradle correct. The hookon state can be checked the following way:
•
•
•
3.4
Hook-on handset
Press PTT while handset is hooked
TX lamp on transceiver is not activated during PTT if the handset is hooked on.
Servicing the CU5000 remote control unit
Functionally there exists only a single version of the CU5000 remote control unit. The unit is operational with
3.4.1
Software
The CU5000 remote control unit contains software. Software update is possible in the units, but is not intended.
Software update of the CU5000 is not intended performed on a regular basis, but is rather seen as a possibility
to correct possible errors.
The CU5000 software is not contained in the transceiver software file, but will be distributed as a separate image.
The software update process is described in the SB5006 manual.
3.4.2
Manuals
There is no specific operations manual to the CU5000. Operation of the unit is fully described in the transceiver
manual.
3.4.3
Service tool
The SB5006 service tool, that is used to update and configure the RT5022/RT5020 transceiver software, can
also be used for updating the CU5000 software, if required.
3.4.4
Service concept – CU5000 Semi-functional Control Unit
The CU5000 Semi-functional Control Unit with integrated handset is not repairable. If taken apart in attempts
to repair and subsequent re-assembling, the unit will not retain its waterproof integrity. Hence, if confirmed faulty
the CU5000 Control Unit w/handset must be replaced in it’s entirety.
3-46
0608
VHF 5000 System
3.4.5
Fault Identifying tests (CU5000)
The CU5000 is water resistant, and shall never be disassembled for repair. The following flow describes a
checklist to go through before determining the CU5000 should be replaced.
(CU-01)
check cabling &
Power up system
(SPD-flow)
SPARC-II
data
Failed
(Replace)
Replace BB
(Base band
board)
Passed
(Replace)
Replace CU
(CU-02)
Accessory
check?
Failed
(CU-03)
Key/
display?
Passed
Failed
(CU-04)
Internal
speaker?
Passed
Failed
(CU-05)
Hook?
Passed
Failed
(CU-06)
Earpiece?
Passed
Failed
(CU-07)
PTT?
Passed
Failed
(CU-08)
Microphone?
Passed
Failed
(CU-09)
External
speaker?
Passed
40467
Test Flow
Terminated
Fig. 26 (CU) - CU5000 verification flow.
0608
3-47
Reference
Operation/Test
CU-01
Power up radio and
CU5000
CU-02
Verify connected CU
CU-03
Key and display test
CU-04
Internal speaker
CU-05
Hook on/off
CU-06
Earpiece sound
CU-07
PTT function
CU-08
Handset microphone test
CU-09
External speaker
VHF 5000 System
Test Criteria
Power up the transceiver first. Then power
up the CU5000.
Pass: The CU5000 is lit. The
number of powered CU’s are
reported in accessory self-
• If the CU5000 is not responding well
press the “Dim” button.
Fail: Not connected or no
light.
• Logic connection to VHF is verified
under the self-test menu 5.6.5.
• If the CU display contains “ES”,
connection to the VHF is failing.
Pass: Functional test acting All keys are checked for functionality. Any
as expected.
of the key presses (except for mute) has a
corresponding reaction in the display.
Fail: Otherwise
Pass: Internal speaker sound
available.
Fail: Otherwise
Pass: Audio is routed to
earpiece or PTT can control
the Tx indicator on the
CU5000 only if the handset
is hooked-off. None of this is
possible while hooked-on.
Fail: Otherwise
Pass: Earpiece sound
available using scenario in
CU-05.
Fail: Otherwise
Pass: Tx indicator on
CU5000 is lit if PTT is
pushed.
Fail: Otherwise
Pass: Tone is transmitted on
VHF channel.
Fail: Otherwise.
Pass: External speaker
sound available using
scenario in CU-04.
Turn down squelch to receive voice. Turn up
volume on the CU5000.
Turn down squelch to receive voice.
Assure earpiece level is set correct on the
transceiver via menu 4.3.1.
Hook-off is required.
Activate microphone (PTT). Either observe
signal on VHF channel or measure – if
possible – the activation of the SPARC-II
Microphone audio line.
Pins 11 and 12 in the SPARC-II cable
coming out of the CU5000 are optionally
connected to external speakers. If this
approach is used, the external speaker is
controllable via the volume control of the
CU5000.
Fail: Otherwise
Tabel 21 (CU) - CU5000 verification steps.
Common user faults
Handset fixed upside down in cradle. The cradle contains a single magnet that matches the handset reedswitch. This means the hook-on state is only detected if the handset is hooked on to the cradle correct. The hookon state can be checked the following way:
•
•
•
3-48
Hook-on handset
Press PTT while handset is hooked
TX lamp on transceiver is not activated during PTT if the handset is hooked on.
0608
VHF 5000 System
3.5
Servicing the SB5006 service tool and LB5007 LAN box
The SB5006 service tool supports all VHF series 5000 products, that is either configurable (transceivers), or can
be updated with new software (transceivers and remote control units).
To always assure the tool is optimal for servicing the SAILOR products it need to be upgraded to exploit service
of the newest features available with the VHF series 5000 products.
The LB5007 shall only be installed if a printer is installed. The hardware and the software inside the LB5007 are
identical to the SB5006 Service tool.
3.5.1
Software
The SB5006 hardware is released as two different platforms.
•
•
Platform 1 is covered by software releases up to version 1.08
Platform 2 is covered by software releases from version 2.08 and up
NOTE: The LB5007 LAN box is built on platform 2 only.
To determine which version of the service tool is regarded, simply power it up and check the Service Tool frame
on the front page. Below is shown the example for a platform 2.
LANBOX
169.254.86.86
Version 2.08
on Platform 2
The SB5006 software will be released on a regular basis on the extranet. We strongly recommend to upgrade
for platform 2, as support for platform 1 solutions will not continue.
3.5.2
Manuals
SB5006 operation is covered in the SB5006 service tool operations manual. Please keep this updated along
with your tool update.
3.5.3
Service concept
The service concept for the SB5006 unit is replacement only.
0608
3-49
VHF 5000 System
3.5.4
Fault identifying tests (LB5007/SB5006)
The LB5007 setup is described in the SB5006 manual. Basically the error scenarios that are seen on the SB5006
and LB5007 will be identical.
(LAN-01)
check cabling &
Power up system
(Replace)
Replace LAN
box
(LAN-02)
IP adress?
Failed
Passed
(SPD-flow)
SPARC-II
data
(LAN-03)
connect PC?
Upload LAN
software. See
manual
Failed
(LAN-04)
LAN
pages?
Failed
(LAN-06)
VHF
pages?
Failed
(LAN-07)
Printer
check?
Passed
(Replace)
Replace LAN
box
Upload VHF
software. See
manual.
Passed
(LAN-05)
check cabling
(PRT-flow)
printer check
& setup
Passed
(Replace)
Replace LAN
box
Test Flow
Terminated
40465
Fig. 27 (LAN) - LAN box verification flow.
3-50
0608
VHF 5000 System
Reference
Operation/Test
LAN-01
Power up radio
LAN-02
Address of the LAN box
Test Criteria
Wait for approximately 20 seconds in an
installation before any checks are
performed.
Pass: The IP address on the Verified under the self-test menu 5.6.3.
LAN box can be read out on
the transceiver display.
Fail: Not connected or IP
address 0.0.0.0 is reported.
LAN-03
Connect PC
Connect a service PC and browse for the IP
address displayed in LAN-02.
LAN-04
LAN-05
Verify LAN HTML service Pass: Index page is
pages
displayed correct.
Fail: Otherwise
Check cabling
LAN-06
Verify VHF file system
LAN-07
Verify printer function
Pass: VHF radio software
versions are displayed on the
main service page.
Fail: Otherwise.
Pass1: The printer server is
identified on the radio.
Pass2: A test page can be
printed.
Verify the correct cable is used to connect
the service PC.
• Crossed cable in connections without
Ethernet switch
• Otherwise a straight cable is used.
1) The printer server is reported in the selftest accessory menu (5.6.4).
2) A test page is printed from the self-test
menu (5.7)
Tabel 22 (LAN) - Lan box verification
3.5.5
Common user faults
Common problems using the SB5006/LB5007 units have been listed in the Trouble shooting section of the
SB5006 manual (also Part 5 in this manual).
0608
3-51
3.6
VHF 5000 System
Servicing the AP4365/AP5065 Alarm Panel
For servicing the AP4365/AP5065 please refer to the AP4365/AP5065 manual.
3.7
Servicing the Matrix Printer
For servicing the OKI Microline matrix printer please refer to the H1252B printer manual.
3.7.1
Fault identifying tests (Printer)
The following checklist can be used to identify if the printer is somehow in disorder. As any printers in principle
can be used with the RT5022/RT5020, the descriptions of only the OKI Microline (H1252B) will be specifically
referenced.
(PRT-01)
check cabling &
Power up system
Printer server
setup flowsee manuals
(LAN-flow)
LB5007
verification
Failed
(PRT-02)
Accessory
check?
Failed
(PRT-03)
Printer
check?
Passed
(SPD-flow)
SPARC-II
data
Passed
(PRT-04)
Printer setup
Test Flow
Terminated
40471
Fig. 29 (PRT) - Printer check flow
Reference
PRT-01
PRT-02
Operation/Test
Power up radio
Accessory check from
VHF
Test Criteria
Pass: The printer server is
recognized in the VHF
accessory check menu.
Fail: Otherwise
Select the Printer server item in the
accessory self test menu (5.6.4).
NOTE: Two things are checked in this
menu.
• The presence of a LAN box (LB5007).
• The presense of the printer server.
PRT-03
Verify printer function
PRT-04
Printer setup
Pass: A test page can be
printed.
Fail: Otherwise.
A test page is printed from the self-test
menu (5.7).
Consult the printer manual for setting up the
printer.
For the OKI Microline the Latin 6 character
set has been identified to be the best
suitable for the current languages.
Tabel 24 (PRT) - Printer verification tasks.
3-52
1007
VHF 5000 System
4
Feature sales
Feature sales
For the VHF 5000 Series products it is possible to buy extra features. Once entered the matching license key
in the product, the feature will be available to use.
The key is entered from the keypad on the transceiver. Once the key is entered the radio will have the application
available forever.
4.1
How to get the license key
The feature enabling license key is acquired from the local sales office. When contacting the sales office for
buying a key, the following information must be provided:
•
•
4.2
The serial number of the product (can be read out via menu 4.6.1.2)
The feature to be enabled (see ordering information in Table 3-1)
Available features
In this section it is possible to examine the features that are available for the VHF 5000 Series products.
4.2.1
Scrambler
The scrambler option for VHF RT5022 makes it possible for the user to carry out private conversation on all
simplex channels with another RT5022 capable of scrambling.
The scrambler option uses sophisticated technology to scramble the voice signal, which gives a high level of
secrecy without compromising the speech quality.
The RT5022 scrambler option features an easy to use interface that only requires a minimum of interaction from
the user to set up a scrambled call. The scrambled call is initiated using channel 70, which makes it possible
to reach the call receiver at all instances.
During the initialisation of the scrambler a unique scrambling key is generated between the two parties, which
ensures that only the intended listener is capable of decoding the message. To ensure the concealment of the
conversation the replay functionality is disabled during the scrambled call.
Enter the Scrambler licence key
The licence key for the Scrambler application is entered once for the product in menu 4.6.5
0608
4-1
Feature sales
4-2
VHF 5000 System
VHF 5000 System
5
Installation
Installation
5.1
Mounting possibilities
140
100
VHF with mounting bracket
229
200
256
39835
Mounting option
Drilling plan
70
5
80
4xø5.5
16
190
222
39837
Tilting +/- 20°
Weight (RT5022):
VHF
4.1 kg
Mounting bracket 1.0 kg
39836
0608
Weight (RT5020):
VHF
4.9 kg
Mounting bracket 1.0 kg
5-1
Installation
VHF 5000 System
VHF with flush mounting bracket
120
Bracket (Option)
240
min. 100.00
Space for Cable entry
39938
3
20
4 pcs. ø5
4 pcs. ø3.5
countersunk for M3
Weight:
Mounting kit
(Part no. 739814) 1 kg
102
108
20
9
Drilling plan
10
20
6
20
219
228
6
39945
WARNING:
Only use screws supplied with mounting kit for
attaching flush mounting bracket to VHF radio.
4 pcs M3x30
6 pcs M4x8
4 pcs M4x30
39966
5-2
0608
VHF 5000 System
Installation
Handset for transceiver
62
This Handset has a hook-on/off function,
which is activated by a small magnet imbedded
in the ceadle.
The cradle must be installed as illustrated in
order to ensure the hook-on/off functionality
of the Handset.
min. 200
75
Space for cable and handset cable
135
226
45
Drilling plan
54
* 120
Space for handset access
39655B
Weight
Handset for transceiver 0.4 kg
Semi-functional control unit
Drilling plan
25
Space for installing and
detaching control unit
2xø5
78
83
100
Length of spiral cord
at rest : 380 mm
39654C
This Handset has a hook-on/off
function, which is activated
by a small magnet imbedded in
the cradle.
The cradle must be installed as
illustrated in order to ensure the
hook-on/off functionality of the
Handset.
54
min. 200
80
Weight:
Semi-functional control unit
16
50
36
Space for cable and handset cable
100
70
9,6
41
100
50
226
100
28
2xø4.5
1.2 kg
5-3
Installation
VHF 5000 System
Installing a single CU
After the CU is connected the unit can be operated straight away without any configuring.
Installation with 2 CUs
If an installation is carried out providing 2 new CUs, it is important when powering these up for the first time, that
this is done sequentially, to allow the CUs to acquire their individual identity on the SPARC II bus:
2 newly installed CUs:
• Power on VHF
• Power on first CU
• Power on second CU
If an additional CU is installed in a system already working with a single CU, the
already existing CU must be switched on prior to the first power-on of the new CU.
Adding a CU in an installation already providing one CU:
• Power on VHF
• Power on the existing CU
• Power on the newly installed CU
This procedure is also followed if a CU is moved from another installation to this installation. Always turn on the
existing CU before turning on the last acquired one - when powering for the first time after installation.
Connection box
185
225.4
Drilling plan
49
258.4
14.85
4 pcs. ø6
9.75
239
* 50
Mounting
* 50
** min. 100
* 50
* Free space for mounting,
** Free space for cable entry.
Weight
Connection box
1.7 kg
39656
5-4
0608
VHF 5000 System
Installation
Extension box
LAN box
Drilling plan
Drilling plan
4 pcs. ø6
4xø3.5
49
141.4
14.85
26.75
73
126.5
120
160.4
4xø4.5
9.7
74.5
122
37
9
82
100
Mounting
* 50
* 50
Mounting
* 50
* 50
** min. 100
* 50
** min. 100
* 50
39658
39657
Weight
Extension box
5.2
Weight
LAN box
0.7 kg
0.3 kg
Compass safe distance
Safe distance in accordance with Annex A of ISO 694:2000.
Safe distance between the nearest point of the item and the centre
of the compass at which it will produce a diviation of 0.3°
Device
RT5022 Transceiver Unit
After magnetization
80 cm
C5001 Handset
85 cm
C5000 Semi-functional Control Unit
85 cm
CB5009 Connection Box
75 cm
EB Extension Box
55 cm
LB5007 LAN Box
30 cm
AP4365 Alarm Panel
50 cm
5-5
Installation
5.3
VHF 5000 System
Interface connections
VHF (rear view)
+
Power
connector
Option
15-pin
sub D male
FUSE
12-24V DC
Main Antenna
Sparc II Bus
15-pin
sub D female
Handset
9 pin
sub D female
DSC Antenna
39815B
Connection box board 639121
EB/CU
EXT /
CU LS
RT50XX
SPARC II
OPTIONS
X2
EB/CU
X9
EXT /
CU LS
IF CU IS CONNECTED TO
EB/CU TERMINALS THEN
REMOVE J1 & J2 FOR X4
AND J3 & J4 FOR X5
EXT
2
2
2
2
DATA+
AUX2
3
3
3
3
DATA-
4
AUX2
4
4
4
4
TX AF+
5
AUX1
5
5
5
5
TX AF-
6
AUX1
6
6
6
6
GND
9
INT LSCALL
10
8
8
7
8
7
8
7
8
X6
VDR-
3
7
X6
X5
+12.5V
2
INT LS+
X5
X4
1
X3
1
X2
1
X1
VDR+
X3
1
7
X4
X9
RT50XX
OPTIONS
X1
1
X8
X8
+12.5V
RX AF+
9
9
9
9
RX AF-
CALL
10
+12.5V
GND
11
10
J3
10
11
10
J1
11
EXT LS+
12
NMEA+
12
J2
J4
12
EXT LS-
13
NMEA-
13
13
13
13
GND
14
ALARM
14
14
14
14
Line out+
15
ALARM
15
15
15
15
Line out-
OPTIONS
CONNECTIONS
SPARC II BUS
CONNECTIONS
X7
LAN
INTERFACE
X7
39816B
Extension board 639123
X6:
J1 & J2 MOUNTED = EXT LS
J1 & J2 NOT MOUNTED = CU LS
J2
2
DATA-
3
4
TX AF+
4
5
TX AF-
5
6
GND
6
+12.5V
X2
X1
7
7
8
RX AF+
8
9
RX AF-
9
10
+12.5V
10
11
EXT LS+
11
12
EXT LS-
12
13
GND
13
14
Line out
14
15
Line out
15
CU
CB/RT50XX
X3
DATA+
3
EXT LSX2
X6
+12.5V
2
X1
EXT LS+
X5
1
X6
EXT/CU
LS+
EXT/CU
LSX3
1
CU LS-
X5
X4
X4
CU LS+
J1
EB/CU
39817B
5-6
0608
39701D
PL259
Ground
RG214 or better
RX/TX Antenna
RG214 or better
Power
12-24V DC
Cable L=1.5m furnished with equiptment
Option
NMEA 1x2x0.5mm2
To LAN Box (optional)
Cable part no. 56.111
L=1.2m furnished with LAN Box
8x2x0.5mm2, max. 20m
8x2x0.5mm2, max. 20m
Ext. speaker (VHF)
(Optional)
Extension Box
(Optional)
CU 1 (Optional)
To Alarm Panel - (if installed) 2x2x0.5mm2, max 100m
Connection Box
(Optional)
Ext. speaker (CU)
(Optional)
L=3m
External power supply input is galvanically isolated from equipment ground reference, i.e. chassis.
Equipment internal power supply reference (-) is at equipment ground reference, i.e. chassis.
Note: All cabling not furnished with equipment to be overall screened type.
Cable screens must be securely grounded at cable inlets in connection boxes, as illustrated in cable connection diagrams.
From position sensor (GPS)
2x0.5mm2
(mixed Rx/Tx Audio) 2x0.5mm2, max 100m
To ships alarm panel or announcer
To VDR
.
PL259
Handset
See next page:
Cable Connection diagram
DSC Antenna
SPARC II bus
L=5m
VHF
(rear view)
furnished with Connection Box
Cable part no. 56.114
0608
furnished with Connection Box
L=3m
Ext. speaker (VHF)
(Optional)
Extension Box
(Optional)
CU 2 (Optional)
8x2x0.5mm2
8x2x0.75mm2
8x2x1mm2
20m
30m
40m
Power cable p/n 539826, 1.5m 2x4.0mm2
+ VDC
White or red
0 VDC
Black
Power connection 12-24VDC,
SPARC II cable length specification 120W min. continuous
(150W min. for RT5020)
Conductor size
Maximum cable length
Ext. speaker (CU)
(Optional)
5.3.1
Cable part no. 539603 L=5m
Handset
VHF 5000 System
Installation
System block diagram with connection box and 2 x extension box
5-7
Installation
5.2
VHF 5000 System
Special installations
5.2.1
Flush mounting with Retrofit
For replacing RT4822 in an existing installation following kits has been developed:
•
P/N 739807 Flush Mounting kit RT5022 for replacement of RT4822
The consoles are being redesigned so that the RT5022 can be fitted into the consoles without ordering additional
material.
5.2.2
Installing the Oki Microline Printer
Installation details regarding the H1252B are mentioned in the M1252GB manual.
See the RT5022/RT5020 operations manual for installation details.
H1252B
Parallel printer
HS5001
CU5000
AP4365
CB5009
Sparc-bus
Option
Handset
RT5022/RT5020
CU5000
220V/110V AC
EB5008
LAN to parallel *
D-link DP-101P+
D-link DP-301P+
GPS
Loudspeaker 8 ohm
VDR
Controls
Loudspeaker 8 ohm
(LS4970)
40311
EB5008
LB5007
LAN Service Box
Line out (600 ohm) for Audio Amplifiers with line in
Note: Printout is supported in the languages which can be set up for the RT5022/RT5020. The printers character
set “Latin 6” has been identified to give the best support for all the implemented languages.
5.2.3
Installing other printers
Other printer types – including laser printers – might be used as well with the Sailor RT5000 Series equipment.
For installation of other printers, refer to the printer manufacturers’ manual. Thrane & Thrane A/S cannot be held
responsible for proper working of any type of printer.
5.2.4
Acquiring a printer server
This section serves as a short description of the compatible print servers for the RT5022/RT5020 radio
connected with the LB5007 LAN box.
The following printer servers have been verified during development of the printing client on the LB5007:
D-Link DP 301P+ (Parallel)
Link to specifications of box:
ftp://ftp.dlink.co.uk/product_datasheets/dp-301p_plus+.pdf
TRENDnet TE100 P1P (Parallel)
http://www.trendnet.com/products/TE100-P1P.htm
TRENDnet TE100 P2U1P (Parallel & USB)
http://www.trendnet.com/products/TE100-P2U1P.htm
5-8
0608
VHF 5000 System
Installation
These print servers are verified. Though, most print servers that support the LPR printing protocols will be able
to print using the RT5022/RT5020 with the LB5007.
The printer servers mentioned are delivered with a normal AC to DC power supply. If AC power is not readily
available or reliable on board the vessel, it might be necessary to add a secure power supply from the ship DC
power (e.g. 12V or 24V). Examples of power converters to use for the printer servers are:
•
•
An inverter solution (e.g. 24VDC -> 230VAC) to supply the original server supply.
Search for example under www.shipshop.dk
A DC-DC converter (e.g. 24VDC -> 5VDC) that can be used instead of the original server supply.
E.g. PMG/PCMG 15 - www.mtm-power.dk
Setting and configuration of the servers varies from manufacturer to manufacturer, though as a rule of thumb
every print server that is configurable regarding IP-address, support LPR printing and is able to interface to the
selected printer can be configured to print. Printing system configuration is to be done on the LB5007, where
3 parameters are to be given:
•
•
•
IP-address / DHCP configuration of printer
Name of printing que (is normally stated in the documentation for the specific printer under the LPR
section)
Type of printer & type of paper (Laser / matrix & single sheet / tractor feed paper)
These settings are configured and stored in the LB5007. See the SB5006 operations manual on how this is done.
LB5007
LAN Service Box
RT5022/RT5020
CB5009
SPARC-II
SPARC-II
SB5006
Crossed Ether (X)
Crossed Ether (X)
Crossed Ether (X)
SB5006
OR
Service PC
Printer
server
H1252
printer
Service PC
40409
Fig. 1
Using the SB5006 service tool in installations with an LB5007. The LB5007 should be disconnected during service as shown.
0608
5-9
Installation
VHF 5000 System
LB5007
LAN Service Box
RT5022/RT5020
SPARC-II
SPARC-II
Service PC
Straight Ether (=)
CB5009
Straight Ether (=)
Printer
server
HUB
Straight Ether (=)
H1252
printer
40411
Fig. 2
Using the LB5007 as service tool in installations with an LB5007. The printer server should be disconnected during service as shown. LB5007 may
be updated with the newest SB5006 software if required for service. The software image is identical for the two products.
LB5007
LAN Service Box
RT5022/RT5020
SPARC-II
SPARC-II
Service PC
Straight Ether (=)
CB5009
Straight Ether (=)
Printer
server
HUB
Straight Ether (=)
40411
H1252
printer
Fig. 3
Using the LB5007 as service tool in installations with a HUB. Straight Ethernet cables shall be used in this case. Before servicing the LB5007 IP
address might be searched for in the RT5022/RT5020 Accessory menu (5.6.3), as it can be set up to a non-default value suiting the current
installation.
5-10
0608
VHF 5000 System
Installation
5.2.5
Connecting the LB5007 LAN box
rect connection between the LB5007 and the printer server must be done using the crossed Ethernet cable.
Alternatively, if operating in an office environment, an Ethernet HUB can be used, in which case the HUB does
the terminal-terminal crossing inside.
Note: The LB5006 service tool is not qualified to operate directly on the internet, so do not plug it into an open
internet connection. The router to the internet would probably not allow this anyway.
The LB5007 can also be used as service tool box. In installations with an LB5007 the service PC can be
connected in place of the printer server during service. A selection of connection scenarios are outlined below:
5.2.6
Multiple unit equipment
If a vessel is equipped with multiple VHF radios the MMSI numbers will be the same for all radios. The Sailor
RT5000 series radios – in such a system - can be addressed individually by programming the 10th digit in the
MMSI number different from 0. Thus giving the possibility to differentiate between (up to) 10 transceivers.
It is important for the installer to know the feature is only active for individual routine calls. All other calls types
(especially Distress, urgency and safety calls) are not affected by this facility.
The installer must assure that the VHF unit placed on the main vessels steering position, has legally
programmed the default MMSI number (with the 10th digit set to zero). The operator shall be advised not to
change the configuration of the main communication unit, because this would violate regulations.
5.2.7
External speakers for the transceiver or remote CU positions
Opptional External speakers can be installed to follow volume control on either RT5022/RT5020, CU5000 or
both.
Because each unit (transceiver and CU) is having a built in amplifier the following must be considered: If CU5000
are included in the installation must either the EB5008 or the CB5009 be modified via jumpers.
CU5000/
EB5008
CU5000/
X4 (11-12)
X8 (1-2)
X1 (11-12)
EXT/CU
LS
CB 5009 Connection Box
J2
VHF RT502x/
EB5008/CB5009
J1
VHF RT502x/
EB5008/CB5009
40298
0608
X6 (11-12)
EXT
LS
X2 (11-12)
J3
J2
X9 (1-2)
REMEMBER
cut J1 & J2, if CU5000 is
connected to x4
Cut J3 & J4, if CU5000 is
connected to x5
CU
LS
X5 (1-2)
EXT
LS
X6 (1-2)
EXT/CU
LS
EB5008 Extension Box
X3 (11-12)
J4
X4 (1-2)
J1
EXT/CU
LS
X3 (11-12)
X5 (11-12)
REMEMBER
cut J1 & J2, if CU5000 is
connected to x3
CU5000/
EB5008
CU5000/
EB5008/
CB 5009
40297
5-11
Installation
5-12
VHF 5000 System
0608
VHF 5000 System
0608
Installation
5-13

VHF 5000 System Workshop Manual

Transcription

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